diff --git a/test/test_data/sph_models/R12_2_1/binout b/test/test_data/sph_models/R12_2_1/binout new file mode 100644 index 0000000..c4ca404 Binary files /dev/null and b/test/test_data/sph_models/R12_2_1/binout differ diff --git a/test/test_data/sph_models/R12_2_1/d3hsp b/test/test_data/sph_models/R12_2_1/d3hsp new file mode 100644 index 0000000..9f967d1 --- /dev/null +++ b/test/test_data/sph_models/R12_2_1/d3hsp @@ -0,0 +1,3551 @@ + + + *************************************************************** + * ANSYS 2021 R1 LEGAL NOTICES * + *************************************************************** + * * + * Copyright 1971-2021 ANSYS, Inc. All rights reserved. * + * Unauthorized use, distribution or duplication is * + * prohibited. * + * * + * Ansys is a registered trademark of ANSYS, Inc. or its * + * subsidiaries in the United States or other countries. * + * See the ANSYS, Inc. online documentation or the ANSYS, Inc. * + * documentation CD or online help for the complete Legal * + * Notice. * + * * + *************************************************************** + * * + * THIS ANSYS SOFTWARE PRODUCT AND PROGRAM DOCUMENTATION * + * INCLUDE TRADE SECRETS AND CONFIDENTIAL AND PROPRIETARY * + * PRODUCTS OF ANSYS, INC., ITS SUBSIDIARIES, OR LICENSORS. * + * The software products and documentation are furnished by * + * ANSYS, Inc. or its subsidiaries under a software license * + * agreement that contains provisions concerning * + * non-disclosure, copying, length and nature of use, * + * compliance with exporting laws, warranties, disclaimers, * + * limitations of liability, and remedies, and other * + * provisions. The software products and documentation may be * + * used, disclosed, transferred, or copied only in accordance * + * with the terms and conditions of that software license * + * agreement. * + * * + * ANSYS, Inc. is a UL registered * + * ISO 9001:2015 company. * + * * + *************************************************************** + * * + * This product is subject to U.S. laws governing export and * + * re-export. * + * * + * For U.S. Government users, except as specifically granted * + * by the ANSYS, Inc. software license agreement, the use, * + * duplication, or disclosure by the United States Government * + * is subject to restrictions stated in the ANSYS, Inc. * + * software license agreement and FAR 12.212 (for non-DOD * + * licenses). * + * * + *************************************************************** + + Date: 08/31/2025 Time: 16:54:33 + ___________________________________________________ + | | + | LS-DYNA, A Program for Nonlinear Dynamic | + | Analysis of Structures in Three Dimensions | + | Date : 04/05/2023 Time: 00:18:51 | + | Version : smp s R12 | + | Revision: R12.2-86-g831c51f1f6 | + | | + | Features enabled in this version: | + | Shared Memory Parallel | + | FFTW (multi-dimensional FFTW Library) | + | Interactive Graphics | + | ANSYSLIC enabled | + | MADYMO indirect coupling (7.2 or higher) | + | | + | Licensed to: University of Waterloo -- 1081066 | + | Issued by : Pascale.SaneGuttin_08122025 | + | | + | Platform : WINDOWS X64 SSE2 | + | OS Level : Windows 8/10 & Srv 2016/2019/2022 | + | Compiler : Intel Fortran XE 2017 MSVC++ 2017 | + | Hostname : Trauma118 | + | Precision : Single precision (I4R4) | + | | + | Unauthorized use infringes Ansys Inc. copyrights | + |___________________________________________________| + + + Command line options: i=C:\Users\DCHartlen\Documents\Scratchpad\lasso-python\test\test_data\sph_models\R12_2_1\sph_test.k + ncpu=2 + memory=20m + + Input file: C:\Users\DCHartlen\Documents\Scratchpad\lasso-python\test\test_data\sph_models\R + + The native file format : 32-bit small endian + Memory size from command line: 20000000 + + ******** notice ******** notice ******** notice ******** + * * + * This is the LS-DYNA Finite Element code. * + * * + * Neither LST nor the authors assume any responsibility for * + * the validity, accuracy, or applicability of any results * + * obtained from this system. Users must verify their own * + * results. * + * * + * LST endeavors to make the LS-DYNA code as complete, * + * accurate and easy to use as possible. * + * Suggestions and comments are welcomed. Please report any * + * errors encountered in either the documentation or results * + * immediately to LST through your site focus. * + * * + * Copyright (C) 1990-2021 * + * by Ansys, Inc. * + * All rights reserved * + * * + ******** notice ******** notice ******** notice ******** + + Beginning of keyword reader 08/31/25 16:54:33 + + + ** ****** ********** ******* + ** ******* ********** ******** + ** ** ** *** + ** ******* ** ** + ** ** ** *** + ********* ******** ** ******** + ********* ****** ** ****** + + +** ****** ******* ** ** * ** ***** +** ******* ******** ** ** ** ** ******* +** ** ** *** ** ** *** ** *** *** +** ** ** *** ** ** *** ** *** *** +** ** ** ** ** **** ** ** ** ********* +** ** ** *** ** ** *** ** ** +** ** ** *** ** ** *** ** ** +********* ******* ******* ** ** ** ** ** +********* ******* ****** ** ** * ** ** + + L I S T O F K E Y W O R D C O U N T S + +total # of *AIRBAG_option.......................... 0 +total # of *AIRBAG_INTERACTION..................... 0 +total # 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of *ELEMENT_SEATBELT_ACCELEROMETER......... 0 +total # of *ELEMENT_SEATBELT_PRETENSIONER.......... 0 +total # of *ELEMENT_SEATBELT_RETRACTOR............. 0 +total # of *ELEMENT_SEATBELT_SENSOR................ 0 +total # of *ELEMENT_SEATBELT_SLIPRING.............. 0 +total # of *ELEMENT_SHELL_option................... 0 +total # of *ELEMENT_SHELL_NURBS_PATCH.............. 0 +total # of *ELEMENT_SOLID.......................... 0 +total # of *ELEMENT_SOLID_NURBS_PATCH.............. 0 +total # of *ELEMENT_SPH............................ 25 +total # of *ELEMENT_TSHELL_option.................. 0 +total # of *ELEMENT_INERTIA........................ 0 +total # of *IGA_SHELL.............................. 0 +total # of *IGA_SOLID.............................. 0 +total # of *MODULE_LOAD............................ 0 +total # of *MODULE_USE............................. 0 +total # of *SENSOR_SWITCH_SHELL_TO_VENT............ 0 +total # of *SENSOR_CPM_AIRBAG...................... 0 +total # of *PG_SWITCH_SHELL_TO_VENT................ 0 +total # of *EOS_option............................. 0 +total # of *FATIGUE................................ 1 +total # of *FATIGUE_FAILURE........................ 0 +total # of *FATIGUE_MULTIAXIAL..................... 0 +total # of *FATIGUE_MEAN_STRESS_CORRECTION......... 0 +total # of *FATIGUE_LOADSTEP....................... 0 +total # of *FREQUENCY_DOMAIN_ACCELERATION_UNIT..... 0 +total # of *FREQUENCY_DOMAIN_ACOUSTIC_BEM.......... 0 +total # of *FREQUENCY_DOMAIN_ACOUSTIC_FEM.......... 0 +total # of *FREQUENCY_DOMAIN_ACOUSTIC_FRINGE_PLOT.. 0 +total # of *FREQUENCY_DOMAIN_ACOUSTIC_INCIDENT_WAVE 0 +total # of *FREQUENCY_DOMAIN_ACOUSTIC_SOUND_SPEED.. 0 +total # of *FREQUENCY_DOMAIN_FRF................... 0 +total # of *FREQUENCY_DOMAIN_LOCAL................. 0 +total # of *FREQUENCY_DOMAIN_MODE.................. 0 +total # of *FREQUENCY_DOMAIN_PATH.................. 0 +total # of *FREQUENCY_DOMAIN_RANDOM_VIBRATION...... 0 +total # of *FREQUENCY_DOMAIN_RESPONSE_SPECTRUM..... 0 +total # of *FREQUENCY_DOMAIN_SEA................... 0 +total # of *FREQUENCY_DOMAIN_SEA_CONNECTION........ 0 +total # of *FREQUENCY_DOMAIN_SEA_INPUTPOWER........ 0 +total # of *FREQUENCY_DOMAIN_SEA_SUBSYSTEM......... 0 +total # of *FREQUENCY_DOMAIN_SSD................... 0 +total # of *FV_MESHES.............................. 0 +total # of *FV_FSI................................. 0 +total # of *HOURGLASS.............................. 0 +total # of *INITIAL_AIRBAG_PARTICLE_POSITION....... 0 +total # of *INITIAL_AXIAL_FORCE_BEAM............... 0 +total # of *INITIAL_CRASHFRONT..................... 0 +total # of *INITIAL_DETONATION..................... 0 +total # of *INITIAL_FATIGUE_DAMAGE_RATIO........... 0 +total # of *INITIAL_FIELD_SOLID.................... 0 +total # of *INITIAL_FOAM_REFERENCE_GEOMETRY........ 0 +total # of *INITIAL_IMPULSE_MINE................... 0 +total # of *INITIAL_MOMENTUM....................... 0 +total # of *INITIAL_PWP_DEPTH ..................... 0 +total # of *INITIAL_STRAIN_SHELL................... 0 +total # of *INITIAL_STRAIN_SHELL_SET............... 0 +total # of *INITIAL_STRAIN_SHELL_NURBS_PATCH....... 0 +total # of *INITIAL_STRAIN_SOLID................... 0 +total # of *INITIAL_STRAIN_SOLID_NURBS_PATCH....... 0 +total # of *INITIAL_STRAIN_TSHELL.................. 0 +total # of *INITIAL_STRESS_BEAM.................... 0 +total # of *INITIAL_STRESS_DEPTH .................. 0 +total # of *INITIAL_STRESS_SECTION................. 0 +total # of *INITIAL_STRESS_SHELL................... 0 +total # of *INITIAL_STRESS_SHELL_SET............... 0 +total # of *INITIAL_STRESS_SHELL_NURBS_PATCH....... 0 +total # of *INITIAL_STRESS_SOLID................... 0 +total # of *INITIAL_STRESS_SOLID_SET............... 0 +total # of *INITIAL_STRESS_SOLID_NURBS_PATCH....... 0 +total # of *INITIAL_STRESS_SPH..................... 0 +total # of *INITIAL_STRESS_TSHELL.................. 0 +total # of *INITIAL_STRESS_DES..................... 0 +total # of *INITIAL_HISTORY_NODE................... 0 +total # of *INITIAL_HISTORY_NODE_SET............... 0 +total # of *INITIAL_TEMPERATURE_SET................ 0 +total # of *INITIAL_TEMPERATURE_NODE............... 0 +total # of *INITIAL_VELOCITY....................... 1 +total # of *INITIAL_VELOCITY_NODE.................. 0 +total # of *INITIAL_VELOCITY_RIGID_BODY............ 0 +total # of *INITIAL_VOID_PART...................... 0 +total # of *INITIAL_VOID_SET....................... 0 +total # of *INITIAL_VOLUME_FRACTION_GEOMETRY....... 0 +total # of *INITIAL_HYDROSTATIC_ALE................ 0 +total # of *INITIAL_EOS_ALE........................ 0 +total # of *INITIAL_VAPOR_PART..................... 0 +total # of *INITIAL_ALE_MAPPING.................... 0 +total # of *INITIAL_LAG_MAPPING.................... 0 +total # of *INITIAL_SOLID_VOLUME................... 0 +total # of *INTEGRATION_BEAM....................... 0 +total # of *INTEGRATION_SHELL...................... 0 +total # of *INTERFACE_COMPONENT_option............. 0 +total # of *INTERFACE_DE_HBOND..................... 0 +total # of *INTERFACE_LINKING_DISCRETE_NODE........ 0 +total # of *INTERFACE_LINKING_DISCRETE_NODE_SET.... 0 +total # of *INTERFACE_LINKING_EDGE................. 0 +total # of *INTERFACE_LINKING_SEGMENT.............. 0 +total # of *INTERFACE_SPRINGBACK................... 0 +total # of *INTERFACE_SSI_AUXILIARY_FREE_FIELD..... 0 +total # of *INTERFACE_SSI_STATIC................... 0 +total # of *INTERFACE_SSI.......................... 0 +total # of *LOAD_ACOUSTIC_SOURCE................... 0 +total # of *LOAD_ALE_CONVECTION ................... 0 +total # of *LOAD_AIR_PRESSURE...................... 0 +total # of *LOAD_BEAM.............................. 0 +total # of *LOAD_BEAM_SET.......................... 0 +total # of *LOAD_BODY_GENERALIZED.................. 0 +total # of *LOAD_BODY_POROUS....................... 0 +total # of *LOAD_BODY_RX........................... 0 +total # of *LOAD_BODY_RY........................... 0 +total # of *LOAD_BODY_RZ........................... 0 +total # of *LOAD_BODY_X............................ 0 +total # of *LOAD_BODY_Y............................ 0 +total # of *LOAD_BODY_Z............................ 0 +total # of *LOAD_BRODE............................. 0 +total # of *LOAD_BLAST............................. 0 +total # of *LOAD_BLAST_CLEARING.................... 0 +total # of *LOAD_BLAST_ENHANCED.................... 0 +total # of *LOAD_BLAST_SEGMENT..................... 0 +total # of *LOAD_BLAST_SEGMENT_SET................. 0 +total # of *LOAD_DENSITY_DEPTH .................... 0 +total # of *LOAD_GRAVITY_PART ..................... 0 +total # of *LOAD_HEAT_CONTROLLER .................. 0 +total # of *LOAD_HEAT_GENERATION_SET............... 0 +total # of *LOAD_HEAT_GENERATION_SOLID............. 0 +total # of *LOAD_HEAT_GENERATION_SET_SHELL......... 0 +total # of *LOAD_HEAT_GENERATION_SHELL............. 0 +total # of *LOAD_MOVING_PRESSURE................... 0 +total # of *LOAD_NODE.............................. 0 +total # of *LOAD_NODE_SET.......................... 0 +total # of *LOAD_NSG............................... 0 +total # of *LOAD_PYRO_ACTUATOR..................... 0 +total # of *LOAD_REMOVE_PART ...................... 0 +total # of *LOAD_SEGMENT........................... 0 +total # of *LOAD_SEGMENT_FSILNK.................... 0 +total # of *LOAD_SEGMENT_NONUNIFORM................ 0 +total # of *LOAD_SEGMENT_SET....................... 0 +total # of *LOAD_SEGMENT_SET_NONUNIFORM............ 0 +total # of *LOAD_SEISMIC_SSI_NODE.................. 0 +total # of *LOAD_SEISMIC_SSI_SET................... 0 +total # of *LOAD_SEISMIC_SSI_POINT................. 0 +total # of *LOAD_SEISMIC_SSI_DECONV................ 0 +total # of *LOAD_SHELL............................. 0 +total # of *LOAD_SHELL_SET......................... 0 +total # of *LOAD_STIFFEN_PART ..................... 0 +total # of *LOAD_SUPERPLASTIC_FORMING.............. 0 +total # of *LOAD_SURFACE_STRESS.................... 0 +total # of *LOAD_THERMAL_option_ELEMENT............ 0 +total # of *LOAD_THERMAL_option_NODE............... 0 +total # of *LOAD_THERMAL_option.................... 0 +total # of *LOAD_THERMAL_LOAD_CURVE................ 0 +total # of *LOAD_THERMAL_TOPAZ .................... 0 +total # of *LOAD_THERMAL_VARIABLE_SHELL_option..... 0 +total # of *LOAD_THERMAL_VARIABLE_BEAM _option..... 0 +total # of *LOAD_VIBRO_ACOUSTIC.................... 0 +total # of *LOAD_VOLUME_LOSS ...................... 0 +total # of *LSO_DOMAIN............................. 0 +total # of *LSO_POINT_SET.......................... 0 +total # of *LSO_REGION............................. 0 +total # of *LSO_TIME_SEQUENCE...................... 0 +total # of *LSO_VARIABLE_GROUP..................... 0 +total # of *MAT_option............................. 2 +total # of *MAT_ADD_AIRBAG_POROSITY_LEAKAGE........ 0 +total # of *MAT_ADD_COHESIVE....................... 0 +total # of *MAT_ADD_DAMAGE_DIEM.................... 0 +total # of *MAT_ADD_DAMAGE_GISSMO_option........... 0 +total # of *MAT_ADD_EROSION........................ 0 +total # of *MAT_ADD_FATIGUE_option................. 0 +total # of *MAT_ADD_GENERALIZED_DAMAGE............. 0 +total # of *MAT_ADD_INELASTICITY................... 0 +total # of *MAT_ADD_PERMEABILITY/PORE_AIR.......... 0 +total # of *MAT_ADD_PROPERTY_DEPENDENCE............ 0 +total # of *MAT_ADD_PZELECTRIC..................... 0 +total # of *MAT_ADD_SOC_EXPANSION.................. 0 +total # of *MAT_ADD_THERMAL_EXPANSION.............. 0 +total # of *MAT_THERMAL_option..................... 0 +total # of *MAT_NONLOCAL........................... 0 +total # of *NODE................................... 25 +total # of *NODE_MERGE............................. 0 +total # of *NODE_MERGE_TOLERANCE................... 0 +total # of *PART_option card....................... 1 +total # of *PART_ANNEAL_option..................... 0 +total # of *PARTICLE_GENERAL....................... 0 +total # of *RIGIDWALL_option....................... 1 +total # of *SECTION_option......................... 1 +total # of *SENSOR_CONTROL......................... 0 +total # of *SENSOR_DEFINE ......................... 0 +total # of *SENSOR_SWITCH ......................... 0 +total # of *SET_2D_SEGMENT......................... 0 +total # of *SET_BEAM............................... 0 +total # of *SET_BOX ............................... 0 +total # of *SET_DISCRETE........................... 0 +total # of *SET_MODE............................... 0 +total # of *SET_NODE_option........................ 1 +total # of *SET_PART............................... 0 +total # of *SET_POINT.............................. 0 +total # of *SET_SEGMENT............................ 0 +total # of *SET_SHELL_option....................... 0 +total # of *SET_SOLID.............................. 0 +total # of *SET_TSHELL............................. 0 +total # of *TERMINATION_BODY....................... 0 +total # of *TERMINATION_DELETED_SHELLS............. 0 +total # of *TERMINATION_DELETED_SOLIDS............. 0 +total # of *TERMINATION_NODE....................... 0 +total # of *TERMINATION_CONTACT.................... 0 +total # of *TITLE.................................. 1 +total # of *USER_INTERFACE_CONTROL................. 0 +total # of *USER_INTERFACE_FRICTION................ 0 +total # of *USER_INTERFACE_FORCES.................. 0 +total # of *USER_INTERFACE_CONDUCTIVITY............ 0 +total # of *USER_LOAD.............................. 0 +total # of *USER_MATERIAL_VENDOR................... 0 +total # of *USER_MATERIAL_LICENSE.................. 0 +total # of *USER_NONLOCAL_SEARCH................... 0 +total # of *USER_PARAMETER......................... 0 +total # of *CHANGE_BOUNDARY_CONDITIONS............. 0 +total # of *CHANGE_CONTACT_SMALL_PENETRATION....... 0 +total # of *CHANGE_RIGID_BODY_CONSTRAINTS.......... 0 +total # of *CHANGE_RIGID_BODY_INERTIA.............. 0 +total # of *CHANGE_THERMAL_PARAMETERS.............. 0 +total # of *CHANGE_VELOCITY_ZERO................... 0 +total # of *CHANGE_VELOCITY_RIGID_BODY............. 0 +total # of *DELETE_ALECPL.......................... 0 +total # of *DELETE_CONTACT......................... 0 +total # of *DELETE_CONTACT_2DAUTO.................. 0 +total # of *DELETE_FSI............................. 0 +total # of *DELETE_ENTITY.......................... 0 +total # of *DELETE_ELEMENT_SOLID................... 0 +total # of *DELETE_ELEMENT_BEAM.................... 0 +total # of *DELETE_ELEMENT_SHELL................... 0 +total # of *DELETE_ELEMENT_TSHELL.................. 0 +total # of *DELETE_PART............................ 0 +total # of *RIGID_DEFORMABLE_CONTROL............... 0 +total # of *RIGID_DEFORMABLE_D2R................... 0 +total # of *RIGID_DEFORMABLE_R2D................... 0 +total # of *STRESS_INITIALIZATION.................. 0 + + Memory required to process keyword : 295524 + Additional dynamic memory required : 80530 + + + LS-DYNA will perform a structural only analysis + + + + SPH Unit Test + code input version =1993 + formats =mlarg + + + + c o n t r o l i n f o r m a t i o n + + CONTROL CARD 1. Model Size-General + + number of materials or property sets........... 2 + + number of nodal+scalar points.................. 29 + + number of merged nodal points.................. 0 + + number of solid elements....................... 0 + + number of beam elements........................ 0 + + number of shell elements....................... 1 + + number of thick shell elements................. 0 + + number of user defined material subroutines.... 0 + + number of material groups tied to solids....... 0 + + number of tracer particles..................... 0 + + number of super elements....................... 0 + + number of solid tetrahedrons with 10 nodes..... 0 + + number of quadratic shell elements............. 0 + + number of shells with extra degrees of freedom. 0 + + number of solids with extra degrees of freedom. 0 + + number of user defined sections................ 0 + + activate sensor capability (inactive=0)........ 0 + + number of user defined solid element types..... 0 + + number of solid interpolation elements......... 0 + + number of user defined shell element types..... 0 + + number of shell interpolation elements......... 0 + + number of constrained nodes for interpolation.. 0 + + consistent mass matrix for user-def elements... 0 + + number of shell nurbs patches.................. 0 + + number of solid nurbs patches.................. 0 + + number of tree branches........................ 0 + + + CONTROL CARD 2. Model Size-Boundary Conditions + + number of spc nodes............................ 0 + + number of spc coordinates...................... 0 + + number of velocity cards....................... 0 + + number of non-reflecting boundary segments..... 0 + + number of b. c. cards.......................... 0 + + number of b. c. cards with failure............. 0 + + number of box definition for b. c. card........ 0 + + number of nodes/interface for cyclic symmetry.. 0 + + number of rigid bodies with attachment nodes... 0 + + + CONTROL CARD 3. Model Size-Loading + + number of load curves.......................... 0 + + number of nodes for load curve functions....... 0 + + number of curves for entities.................. 0 + + number of concentrated load cards.............. 0 + + number of pressure load cards.................. 0 + + number of expansion pressure load cards........ 0 + + number of nonuniform pressure loads-4 nodes.... 0 + + number of nonuniform pressure loads-6 nodes.... 0 + + number of nonuniform pressure loads-8 nodes.... 0 + + number of generalized body force sets.......... 0 + + number of beam pressure card definitions....... 0 + + number of detonation points.................... 0 + + number of zones for momentum deposition........ 0 + + number of points in density vs. depth curve.... 0 + + number of outflow boundary segments............ 0 + + number of load curve feedback sets............. 0 + + number of pressure load sets with masks........ 0 + + number of spray systems ....................... 0 + + number of initial stress by cross-sections sets 0 + + number of pressure load sets................... 0 + + number of ground motion definitions............ 0 + + number of ground motions specified at nodes.... 0 + + number of ground motions specified at points... 0 + + number of ground motions specified in bin file. 0 + + number of segsets with specified ground motion. 0 + + number of soil-structure interfaces for output. 0 + + number of aero-acoustic load cards............. 0 + + number of delayed curve........................ 0 + + number of pid controller....................... 0 + + + CONTROL CARD 4. Model Size-Constraints and Contact + + number of rigid wall definitions............... 1 + + number of number of contact definitions........ 0 + + number of number of guided cable contacts...... 0 + + number of shell-solid interfaces............... 0 + + number of tie-breaking slide lines............. 0 + + number of blocks of tied nodes with fracture .. 0 + + number of tied nodal pairs for linking......... 0 + + number of constraint cards..................... 0 + + number of linear constraint equations.......... 0 + + number of 1d slidelines........................ 0 + + number of adaptive constraints................. 0 + + number of ALE smoothing constraints............ 0 + + number of 2d slidelines........................ 0 + + number of 2d automatic contacts................ 0 + + number of part IDs for interior contact........ 0 + + number of beam release sets.................... 0 + + max. number of nodes in any beam release set... 0 + + + CONTROL CARD 5. Model Size-Rigid Body Parameters + + number of rigid body constraint sets........... 0 + + number of rigid body merge cards............... 0 + + number of joint constraints.................... 0 + + number of joint failure definitions............ 0 + + number of joint user force definitions......... 0 + + number of extra node blocks.................... 0 + + number of rigid body inertia definitions....... 0 + + number of geometric contact entities........... 0 + + number of joint stiffness definitions.......... 0 + + number of rigid body stoppers.................. 0 + + joint formulation for rigid bodies............. 0 + eq.0: penalty + eq.1: lagrange multiplier + + generalized stiffness angle update ............ 0 + eq.0: incremental formulation + eq.1: total formulation + + number of flexible bodies...................... 0 + lt.0: stress recovery active + + number of relative damping definitions......... 0 + + flag for reading rigid surface contact input... 0 + eq.0: no rigid surface contact + eq.1: read rigid surface input + + number of Hybrid III dummies .................. 0 + + number of Hybrid III joint modifications ...... 0 + + number of interpolation constraints ........... 0 + + flag for metalforming fast rigid bodies........ 0 + eq.0: full rigid body treatment + eq.1: fast rigid body treatment + + number of prescribed rigid body orientations 0 + + + CONTROL CARD 6. Model Size-Discrete Elements & Seat Belts + + number of spring-damper material types......... 0 + + number of local coordinate systems............. 0 + + number of discrete springs and dampers......... 0 + + number of lumped masses........................ 0 + + number of parts with added mass................ 0 + + number of nodes with mass matrix............... 0 + + number of seat belt materials.................. 0 + + number of seat belt elements................... 0 + + number of 2d seat belt elements................ 0 + + number of slip rings........................... 0 + + number of retractors........................... 0 + + number of sensors.............................. 0 + + number of pretensioners........................ 0 + + number of accelerometers....................... 0 + + number of discrete rotary inertias............. 0 + + number of SPH particles........................ 25 + + number of groups of SPH particles.............. 1 + + + CONTROL CARD 7. Model Size-Output Control + + number of cross section definitions............ 0 + + number of nodal groups for resultant forces.... 0 + + number of interface segments for linking....... 0 + + max. number of segments defining rigid wall.... 0 + + number of power spectrum density databases..... 0 + + + CONTROL CARD 8. Computation Options-Termination + + termination time............................... 0.3500E-01 + + termination cycle.............................. 0 + + reduction factor for minimum time step (TSMIN). 0.0000E+00 + + percent change in energy ratio for termination. 0.0000E+00 + + percent change in total mass for termination... 0.0000E+00 + + number of nodes for displacement termination... 0 + + number of rigid bodies for disp. termination... 0 + + number of conditions for contact termination... 0 + + number of conditions for ldcurve termination... 0 + + ID of sensor_switch for sensor termination... 0 + + + CONTROL CARD 8a. Computation Options-Start + + start time..................................... 0.0000E+00 + + + CONTROL CARD 9. Computation Options-Time Step Size + + initial time step size......................... 0.0000E+00 + + time step scale factor......................... 0.9000E+00 + + time step size calculation for 4-node shells... 0 + eq.0: based on longest element side + eq.1: based on longest element diagonal + eq.2: based on bar wave speed max side + eq.3: based on optimal time step size + estimator + + shell element minimum time step assignment..... 0.0000E+00 + + time step size for mass scaled solution, dt2ms. 0.0000E+00 + lt.0: minimum time step size permitted + + load curve number for maximum timestep......... 0 + + erosion/termination flag for element dt < TSMIN 0 + beam elements.............................. not active + shell elements............................. not active + solid and tshell elements.................. not active + + solid element time step calculation option, IHDO 0 + eq.0: default method + eq.1: method to improve time step continuity + + option part set ID for eroding solids.......... 0 + eq.0: all solids and thick shells are checked + if ERODE=1 and TSMIN>0 or if TSMIN<0 + gt.0: solids within part set are checked + + limit mass scaling to the first time step...... 0 + eq.0: no + eq.1: yes + + scale factor on initial dt to determine dt2ms.. 0.0000E+00 + + load curve ID for mass scaling ................ 0 + + flag for selective mass scaling................ 0 + eq.0: off + eq.1: on + eq.2: on for part subset + + consistent constraint logical switch........... F + + flag for part set for erosion ................. 0 + eq.0: no + eq.1: yes + + flag for accounting for rotations in sms....... 0.0000E+00 + eq.0.: off (default) + gt.0.: on + implicit_explicit_hybrid part set.............. 0 + + fraction of added mass contributing to gravity. 0.0000E+00 + + consistent mass scaling (0=off, 1=on).......... 0 + + user defined average nodal rotational mass .... 0.0000E+00 + + + + + CONTROL CARD 10. Computation Options-Loading + + x-ground acceleration.......................... 0 + eq.0: no + eq.1: yes + + y-ground acceleration.......................... 0 + eq.0: no + eq.1: yes + + z-ground acceleration.......................... 0 + eq.0: no + eq.1: yes + + x-angular velocity............................. 0 + eq.0: no + eq.1: yes + + y-angular velocity............................. 0 + eq.0: no + eq.1: yes + + z-angular velocity............................. 0 + eq.0: no + eq.1: yes + + number of materials receiving body forces...... 0 + eq.0: all + eq.n: subset of n materials + + flag for user defined loading subroutine....... 0 + lt.0: magnitude=# of input constants + eq.0: no + eq.1: yes, but no additional input + + explosive initiation option.................... 0 + eq.0: lighting times based on distance + eq.1: lighting times include geometric + effects for wave shapers, etc. + + sub-sea structural analysis option............. 0 + eq.0: off + eq.1: on with 1 point integration + eq.4: on with 4 point integration + contact pressure calculation option............ 0 + eq.0: off (default) + eq.1: on + # of user defined loading set.................. 0 + + + CONTROL CARD 11. Computation Options-Input Control + + initialization of velocities................... 1 + eq.0: velocities are initialized to zero + eq.1: initial velocities are read in + eq.2: all velocities have same input value + eq.3: as 2 but exempted nodes are defined + eq.4: box option + eq.5: generation with arbitrary numbering + eq.6: rotational and translational via IDs + eq.7: option 6 but applied during calculation + + time to apply initial velocites (option 7)..... 0.0000E+00 + + arbitrary node and element numbering flag ..... 1 + + constitute, eqs-of-state, cross-section option. 0 + eq.0: off + eq.1: separate input is required for each + + specified nodal coordinate format.............. e20.0 + + flag for thermodynamic control volume input.... 0 + + overpressure option (eq.0 no, eq.1 yes)....... 0 + + number of part (de) activation sensors......... 0 + + number of rigid body initial velocity sets..... 0 + + jacobian tolerance for type 16 tetrahedron..... 0.0000E+00 + + flag to check for NaN in force/moment arrays... 0 + + maximum LCINT (curve discretization inc.)...... 100 + + load curve accuracy flag....................... 0 + + cycles between evaluation of curve functions... 1 + + + CONTROL CARD 12. Computation Options-Elements + + warped shell angle in deg. for error message... 0.2000E+02 + + iterative plane stress plasticity for shells... 1 + eq.1: vectorized with three iterates + eq.2: nonvectorized iterations as needed + eq.3: noniterative radial return + + Calculation option for F for solid elements.... 0 + eq.0: default, explicit=1, implicit=2 + eq.1: integrate incrementally + eq.2: compute directly + + flag for automatic sorting .................... 0 + eq. 1: on for triangular shells + eq.11: on for triangular shells and solids + eq.10: on for solids (tets and pentas) + + formulation for sorted degenerate tet/pent..... 0 + eq. 0: no sorting required(default) + eq. 1: type 10 tet & type 15 pent + eq. 2: type 10 tet, 1pt pent to type 15 pent, + fully intg pent to type 115 pent + eq. 3: same as 1 & switch elem in messag file + eq. 4: same as 2 & switch elem in messag file + + formulation for sorted trianglar shells ....... 0 + eq. 0: no sorting required(default) + eq. 1: C0 triangle, type 4 + eq. 2: DKT triangle type 17 + + hughes-liu normal computation options.......... -1 + eq.-2: unique nodal fibers + eq.-1: compute normals each cycle + eq.0 : default set to -1 + eq.1 : compute on restart + eq.n : compute on restart + each nth cycle + + consistent tangent for type 13 solid........... 0 + eq.0 : no, recommended for nonlinear implicit + eq.1 : yes, may improve linear response + + choice of type 13 solid implementation......... 0 + eq.0 : efficient version (default) + eq.1 : slower but more accurate version + + rotary inertia for solid nodes, if required ... 0 + eq.0 : global average (default) + eq.1 : element based + + cohesive element quality check ................ 0 + eq.0 : error due to bad quality (default) + eq.1 : only warning + eq.2 : warning and deletion of bad elements + + thickness modification for membrane strains.... 0 + eq.0: no + eq.1: 4-node shell only + eq.2: 8-node thick shell types 1 & 2 + eq.3: update both 4 & 8 node thickness + eq.4: same as option 1 but the elastic + strains are neglected + + shell part set ID (pids) for thickness update. 0 + lt.0: exclude pids if update option is active + eq.0: include all if update option is active + gt.0: include pids if update option is active + + shell part set ID where type 4 update applies 0 + + shell formulation basis........................ 2 + eq. 1: hughes-liu + eq. 2: belytschko-tsay + eq. 3: bciz + eq. 4: c0-triangular element + eq. 5: membrane element + eq. 6: s/r hughes-liu + eq. 7: s/r co-rotational hughes-liu + eq. 8: belytschko-leviathan shell + eq. 9: fully integrated membrane + eq. 10: belytschko-wong-chiang + eq. 11: fast hughes-liu + eq. 12: 2d plane stress + eq. 13: 2d plane strain + eq. 14: 2d axisymmetric (area wgt) + eq. 15: 2d axisymmetric (volume wgt) + eq. 16: fully integrated element + eq. 17: dkt element + eq. 18: dkq-dkt linear element + eq. 20: assumed strain linear element + eq. 21: assumed strain linear element(5DOF) + eq. 22: linear shear panel element(3DOF) + eq. 23: 8-node quadratic quadrilateral shell + eq. 24: 6-node quadratic triangular shell + eq. 25: belytschko-tsay with + thickness stretch + eq. 26: fully integrated element with + thickness stretch + eq. 27: c0-triangular element with + thickness stretch + eq. 29: cohesive element for shell + edge-to-edge connections + eq. -29: cohesive element with midlayer + coordinate system for pure shear + eq. 31: 2-d 1-pt. eulerian n-s + eq. 32: 2-d 4-pt. eulerian n-s + eq. 33: 2-d cvfem eulerian n-s + eq. 41: meshfree shell local projection + eq. 42: meshfree shell global projection + eq. 43: meshfree plane strain + eq. 44: meshfree axisymmetric solid + eq. 46: cohesive element compatible with 2d + plane stress, plane strain, or + area-weighted axisymmetric elements + eq. 47: cohesive element compatible with 2d + volume-weighted axisymmetric elements + eq. 98: interpolation shell element + eq. 99: elastic vibration element + eq. 201: isogeometric nurbs element + ge.1000: user defined (generalized) shell + + # of user specified beam integration rules..... 0 + max number of integration points reqd (beams) . 0 + # of user specified shell integration rules.... 0 + max number of integration points reqd (shells). 0 + warping stiffness for Belytschko-Tsay shells... 2 + eq.1: Belytschko-Wong-Chiang modification + eq.2: original Belytschko-Tsay + + projection method for warping stiffness........ 0 + eq.0: drill + eq.1: full + + reference configuration ....................... 0 + eq. 0: no + eq. 1: yes, active for all airbags + eq. 2: yes, reference geometry Dt + eq.10: yes, active for foam elements + eq.11: options 1 and 10 active + eq.12: options 2 and 10 active + + contact reference configuration ............... 0 + eq. 0: no + eq. n: n number of reference nodes + + invariant node numbering ...................... 0 + eq.-4 on for both shell and solid elements + except triangular shells + eq.-2 on for shell elements except + triangular shells + eq. 1 off (default) + eq. 2 on for all shell elements + eq. 3 on for solid elements with + anisotropic material + eq. 4 on for all shell elements and solid + elements with anisotropic material + + activation time for reference geometry ........ 0.0000E+00 + + scale factor for shell rotary mass ............ 0.1000E+01 + scale factor for shell rotary added mass ...... 0.1000E+01 + + integration for shell through thickness ....... 0 + eq.0: Gauss + eq.1: Lobatto + + use laminated shell theory for material ....... 0 + types 22, 54, 55, and 76: + eq.0: no + eq.1: yes for thin shell material types + 22, 54, 55, or 76 + eq.3: yes for all thin shell anisotropic + materials or mixed materials + eq.4: yes for all thick shell anisotropic + materials or mixed materials + eq.5: yes for thick and thin shells + + number of annealed parts ....................... 0 + + number of new part IDs for COMPOSITE option..... 0 + + flag for shell offset vectors ................. 0 + eq. 0: off + eq. 1: on + + flag to reduce time step for shell offsets .... 0 + eq. 0: reduction depending on offset + eq. 1: no reduction + + flag for offset shell contact surface ......... 0 + eq. 0: off + eq. 1: on + eq. 2: on, but use contact thickness + + number of point constraints between shells .... 0 + + flag for input of beam orientation vectors .... 0 + + flag for input of beam offset vectors ......... 0 + + flag for input of beam warpage scalar nodes.... 0 + + flag for 12-node shell for thermal ............ 0 + + local shell coordinate system in type 6 shell.. 1 + eq. 0: uniform local coordinate system + eq. 1: variable local coordinate system + + Jacobian check on 1 point shells............... 0 + eq. 0: off + eq. 1: on -delete distorted element + eq. 2: on -terminate + eq. n: terminate when n elements are deleted + + Jacobian check on 4 point shells............... 0 + eq. 0: off + eq. 1: on -delete distorted element + eq. 2: on -terminate + eq. n: terminate when n elements are deleted + + part set ID for Jacobian checks................ 0 + + keep contact segment related to failed shell... 0 + eq. 0: off + eq. 1: on + delete free-free shells in Jacobian checks..... 0 + eq. 0: off + eq. 1: on + + part set ID for drill constraint force ........ 0 + scale factor for drill constraint force ....... 0.00000000E+00 + method for drill constraint force ............. 0 + eq. 0: generalized drill strain, node based + eq. 1: spin tensor, element based + + w mode deletion angle in degrees .............. 0.0000E+00 + + stretch ratio deletion (l/l0) ................. 0.0000E+00 + + flag for error exit in case of unwanted + interpolation of inital stresses .............. 0 + + number of shell part IDs for termination...... 0 + eq. 0: inactive + gt. 0: # part IDs where # failed are defined + + number of solid part IDs for termination...... 0 + eq. 0: inactive + gt. 0: # part IDs where # failed are defined + + integration rule for quadratic tetrahedrons.... 4 + eq. 4: 4 point integration formula + eq. 5: 5 point integration formula + + integration rule for quadratic shells.......... 3 + eq. 2: 2x2 integration in plane + eq. 3: 3x3 integration in plane + + stress output for solid element spotwelds...... 0 + eq. 1: global (default) + eq. 2: local + + # of solid elements with death times........... 0 + + # of beam elements with death times........... 0 + + # of shell elements with death times........... 0 + + # of thick shell elements with death times..... 0 + + # of box definitions for element deletion...... 0 + + # of parts to be annealed...................... 0 + + flag for input of elbow extra scalar nodes..... 0 + + flag for material stochastic variations........ 0 + + number of tailor welded blanks ................ 0 + + number of heat affected zone property sets..... 0 + + flag for loading segments with file option..... 0 + + flag for loading segments FSI link file........ 0 + + + number of solid elements with initial stress .. 0 + + number of sph elements with initial stress .. 0 + + number of beam elements with initial stress .. 0 + + number of shell elements with initial stress .. 0 + + number of shell elements with initial strain .. 0 + + number of iga-shell elms with initial stress .. 0 + + number of iga-shell elms with initial strain .. 0 + + number of iga-solid elms with initial stress .. 0 + + number of iga-solid elms with initial strain .. 0 + + maximum number of tensor data ................. 0 + + maximum number of history variables ........... 0 + + no. of thick shell elems with initial stress .. 0 + + number of solid elements with initial strain .. 0 + + number of solid elements with initial dof...... 0 + + number of nodes with initial geometry.......... 0 + + write nodes with initial geometry.............. 0 + = 0: do not write nodes + = 1: write nodes + + number of discrete element spheres............. 0 + + flag for initial transverse shear stresses .... 0 + = 0: keep transverse shear stresses (default) + = 1: set transverse shear stresses to zero + + psid for shells with local initial stresses ... 0 + + number of of thick shells with inital strain... 0 + + cohesive element flag ICOH = [LK] = K+10*L .... 0 + K = 0: do not delete after neighbor failed + K = 1: delete after neighbor failed + L = 0: default time step estimate + L = 1: most conservative (smallest) + time step estimate + L = 2: intermediate time step estimate + + flag for SPR2/SPR3 initial radius of influence 0 + eq.0: silently increased to find enough nodes + eq.1: same as .eq.0 but write warning + eq.2: error termination if too small + flag for SPR3 resultant shear moment 0 + eq.0: distribute as force pairs + eq.1: distribute as nodal moments + + + CONTROL CARD 13. Computation Options-Materials + + hourglass formulation.......................... 0 + eq.0 LS-DYNA versions 940 and after + eq.1 LS-DYNA versions 936 and before + + hourglass models + eq.1: standard viscous form + eq.2: flanagan-belytschko viscous form + 1pt volume integration for solids + eq.3: flanagan-belytschko viscous form + exact volume integration for solids + eq.4: flanagan-belytschko stiffness form + 1pt volume integration for solids + eq.5: flanagan-belytschko stiffness form + exact volume integration for solids + eq.6: bindeman-belytschko stiffness form + for 2d and 3d solid elements only + eq.9: puso stiffness form for 3d solid + elements only + + hourglass model (default)...................... 0 + + hourglass coefficient (default)................ 0.0000E+00 + + bulk viscosity type (default).................. 0 + eq.-2: standard +types 2,4,10,16,17 shells+IE + eq.-1: standard +types 2,4,10,16,17 shells + eq.+1: standard + + quadratic bulk viscosity coefficient........... 0.0000E+00 + + linear bulk viscosity coefficient.............. 0.0000E+00 + + bulk viscosity type for beams.................. 0 + eq.+1: standard + eq.+2: standard + IE + + bulk viscosity for thick shells................ 0 + eq.0: off (default) + gt.0: on (forms 5, 6, and 7) + + using old interpolation scheme for tables...... 0 + eq.0: no (default) + eq.1: yes + + avoid reject in material models for implicit... 0 + eq.0: no (default) + eq.1: yes + flag for rayleigh damping input................ 0 + eq.0: off (default) + eq.1: on + + flag for rigid/deformable material switching... 1 + eq.1: off (default) + eq.2: on + eq.3: on and automatic switching + + thermal effects option......................... 0 + eq.0: no thermal effects + eq.n: nodal temps scaled by load ftn -n- + eq.-1: coupled thermal mechanical analysis + eq.-2: temperature data input option 2 + eq.-3: thermal solution + eq.-4: Read binary temperature file + eq.-5: Read d3plot file + eq.-6: Read LSDA file + eq.-9998: user defined load set temp. input + eq.-9999: temperature data input option 1 + + thermal curve ID used for dynamic relaxation... 0 + + super plastic forming input option............. 0 + eq.0: skip input + eq.1: read superplastic input section + + objective stress update for large Dt........... 0 + eq.0: off (default) + eq.1: on globally + eq.2: on for part subset + + default contact parameters input option........ 0 + eq.0: no + eq.1: yes + + number of reinforcement cards for mat 84&85.... 0 + + output interval for aea_crack database......... 0.0000E+00 + + number of non local materials.................. 0 + + neighbours arrays oversized of (%)............. 0 + + number of parts defined for adaptive failure... 0 + + number of elements with specified temperature.. 0 + + number of parts with spotweld rupture stress... 0 + + number of parts with spotweld rupture parametr. 0 + + number of spotweld lists....................... 0 + + number of rows of opt=10 spot weld failure data 0 + + implicit accuracy option to turn on strong + objectivity in various features (elements, + contacts, constraints, etc..................... 0 + eq.0: no + eq.1: yes + + flag for MAT_ADD_EROSION failure switching .... 0 + eq.0: on (default) + eq.1: off globally + + flag for MAT_USER treatment ................... 0 + eq.0: warning if default umat is used + eq.1: error termination if default umat is used + + + CONTROL CARD 14. Computation Options-Damping + + load curve specifying system damping........... 0 + eq.-1: system damping by material + eq. n: load curve n defines system damping + + optional constant for system damping........... 0.0000E+00 + + system damping scale factor for x-translation.. 0.1000E+01 + + system damping scale factor for y-translation.. 0.1000E+01 + + system damping scale factor for z-translation.. 0.1000E+01 + + system damping scale factor for x-rotation..... 0.1000E+01 + + system damping scale factor for y-rotation..... 0.1000E+01 + + system damping scale factor for z-rotation..... 0.1000E+01 + + stress initialization flag .................... 0 + eq.-1: dynamic relaxation (debug option) + eq.0: off + eq.1: dynamic relaxation + eq.2: deformed geometry + eq.3: dynamic relaxation with part set ID + eq.5: initialize implicitly + eq.-999:off-not activated by load curves + + convergence check interval (dynamic relaxation) 250 + + convergence tolerance for dynamic relaxation... 0.1000E-02 + + dynamic relaxation factor...................... 0.9950E+00 + + termination time for dynamic relaxation........ 0.0000E+00 + eq.0.0: convergence terminates relaxation + gt.0.0: termination at specified time + unless convergence is attained + + scale factor for dyn relax time step........... 0.9000E+00 + + automatic determination of dr factors.......... 0 + eq.0: off (default) + eq.1: on + + convergence tolerance for above option......... 0.0000E+00 + + active part set ID for dynamic relaxation ..... 0 + + + + CONTROL CARD 15. Computation Options-Contact + + scale factor for contact interface penalties... 0.1000E+00 + + scale factor for rigid wall penalties.......... 0.0000E+00 + + flag to activate MADYMO contact coupling....... 0 + eq.0: inactive + eq.1: active + + track initial penetrations in auto contacts.... 0 + eq.0: no, move node to contact surface + eq.1: yes, initial penetrations remain + + ignore initial separations in tied contacts.... 0 + eq.0: no, eliminate gaps most accurate + eq.1: yes, may lock rotations + + contact initial penetration check option....... 1 + eq.1: off (default) + eq.2: on + + thickness considered in type 3, 5 or 10 contact 0 + eq.0: off + eq.1: on, but rigid bodies excluded + eq.2: on, rigid bodies are included + + penalty stiffness option....................... 1 + eq.1: minimum master/slave value + eq.2: master segment stiffness (old way) + eq.3: slave node stiffness + eq.4: slave node area/mass weighted + eq.5: like 4 but k proportional to 1/thick + + thickness changes considered in contact........ 0 + eq.0: no for type 4, 13, and a13 contact + except for segment based contact (SOFT=2), + eq.1: yes + eq.2: no in any segment based conatct (SOFT=2) + + automatic reorientation option................. 1 + eq.1: on for automatic contact definitions + eq.2: on + eq.3: off + + memory allocation-user contact surface control 0 + gt.0: memory per interface passed to user + + memory allocation-user contact surface frict... 0 + gt.0: memory per interface passed to user + + number of time steps between contact searching. 0 + eq.0: LS-DYNA chooses value + + intermittent searching in type 3 contact....... 0 + eq.0: off (default) + eq.1: on + + release factor for extra searching option...... 0.4000E+01 + + treatment of nodes in eroding contact.......... 0 + eq.0: delete from calculation + eq.1: keep nodes of eroded solids + eq.2: keep nodes of eroded solids & shells + + calculation of frictional sliding energy....... 0 + eq.0: do not calculate + eq.1: calculate + + shell thickness in single surface contact...... 0 + eq.0: use characteristic shell dimension + eq.1: use actual shell thickness + + time step size override for eroding contact.... 0 + eq.0: contact time size may control dt + eq.1: contact is not considered for dt + + number of automatic positioning definitions.... 0 + + print slave node/segment in spotweld contact... 0 + eq.0: no + eq.1: yes, in D3HSP file + + option for unconstrained spotweld node/face.... 0 + eq.0: ignore + eq.1: terminate + eq.2: delete weld and continue + + delete spotweld if tied to failed shell........ 0 + eq.0: no + ge.1: yes + + number of friction table definitions........... 0 + + read in friction table for automatic contacts.. 0 + eq.0: no + ne.0: number of part pair defined for table + + include sliding energy density in d3plot....... 0 + eq.0: no + eq.1: yes + + read in spotweld failure table................. 0 + eq.0: no + ne.0: number of part pair defined for table + + contact thickness scaling option for welds..... 0.0000E+00 + eq.0.0: inactive + gt.0.0: scale factor on thickness + + beam spotweld radius scale factor for thinning. 0.0000E+00 + eq.0.0: inactive + gt.0.0: scale factor on radius + + read in smooth contact flags................... 0 + eq.0: no + eq.1: yes + Warning: in Shared Memory Program smooth option only + available for Forming type contact + + flag for eliminating faces on symmetry planes.. 0 + eq.0: use all faces + eq.1: delete faces from contact + + spotweld tension scaling load curve............ 0 + spotweld compression scaling load curve........ 0 + spotweld direction scaling table.(tension)..... 0 + spotweld direction scaling table (shear) ..... 0 + eq.0: table for tension scaling is used + spotweld print flag (on=1)..................... 0 + + number of contact volume definitions........... 0 + + flag to use one way node to surface erosion.... 0 + + flag for implicit rigidwall gap stiffness...... 1 + + eq.1: add initial gap stiffness + eq.2: do not add gap stiffness + + death time for gap stiffness................... 0.0000E+00 + + penalty scale factor for rigid walls........... 0.1000E+01 + + flag for covariant contact formulation......... 0 + + eq.0: covariant formulation not used + eq.1: covariant formulation used + + flag for offsetting thick thermal contact + surfaces in the thermal contacts............... 0 + + eq.0: no offset, if thickness is not included + contact will act on shell mid-surface + eq.1: offsets are applied so that contact + always act on the shell outer surfaces + + flag for shell segment edge shape.............. 0 + eq.0: shell edges assumed round (default) + eq.1: shell edges assumed square + + segment based contact PSTIFF option............ 0 + eq.0: use the material density (default) + eq.1: use nodal masses + + flag for consistent thermal contact algorithm.. 1 + lt.0: conduction evenly distributed (pre-R4) + eq.1: conduction weighted by shape functions, + reduced integration (default) + eq.2: conduction weighted by shape functions, + full integration + + flag for optional tied interface update ....... 0 + eq.0: integrate accelerations for v and u + eq.1: differentiate u to obtain v and a + + flag for overlapping force transducers......... 0 + eq.0: forces applied to first found (faster) + eq.1: forces applied to all transducers + + scale factor for contact interface mass scaling 0.0000E+00 + shell thickness scale factor for rigidwall .... 0.0000E+00 + flag of contact involving isogeometric ele .... 0 + eq.0: interp. node vs. interp. facet + eq.1: interp. node vs. isogeometric element + print out penetration info for mortar contact.. 0 + scale factor for contact pressure on thickness + shells......................................... 0.1000E+01 + convert spc on mat_rigid and + constrained_nodal_rigid_body to bpm for + output to bndout............................... 0 + eq.0: do not convert + eq.1: convert + output contact penetrations to d3plot + and sleout..................................... 0 + eq.0: no output + ge.1: output absolute penetrations + ge.2: output relative penetrations + + revert spotweld thinning behavior to R9.3.1 ... 0 + eq.0 default: thinning at shared nodes + eq.1 no thinning at shared nodes + + + CONTROL CARD 16. Computation Options-Parallel + + number of cpus for parallel computations....... 2 + + parallel right hand side assembly.............. 0 + eq.0: on (default) + eq.1: off + + flag for automatic subcycling.................. 0 + eq.0: off (default) + eq.1: on + + number of part IDs for mass scaled subcycling.. 0 + + flag for repeatability in parallel solution.... 2 + eq.1: on (ordered RHS summation-slower) + eq.2: off (default) + + use memory to parallelize repeatability option. 0 + eq.0: off + eq.1: on + maximum time step factor for subcycling........ 0 + + + CONTROL CARD 17. Computation Options-Coupling + + length conversion factor coupling.............. 0.1000E+01 + + time conversion factor coupling................ 0.1000E+01 + + force conversion factor coupling............... 0.1000E+01 + + material repositioning flag.................... 0 + eq.0: off + eq.1: input data defines repositioning + eq.2: no repositioning of defined nodes + + Flag to flip X-coordinates..................... 0 + + Flag to flip Y-coordinates..................... 0 + + Flag to flip Z-coordinates..................... 0 + + Idle time for LS-DYNA.......................... 0.0000E+00 + + Implicit coupling for springback............... 0 + eq.0: off (default) + eq.1: on + eq.2: seamless springback + + DYNAIN output format........................... 0 + eq. 0: ascii + eq. 1: binary + eq. 2: ascii and binary + eq.10: ascii (large) + eq.11: binary (large internal ASCII) + eq.12: ascii and binary (large) + + Mismatched acoustic coupling input flag........ 0 + eq.0: off + eq.1: on + + Two sided acoustic coupling input flag......... 0 + eq.0: off + eq.1: on + + Coupling with USA.............................. 0 + eq.0: off (default) + eq.1: on + + Number of steps for CAL3D/MADYMO3D subcycling.. 1 + + Number of MCOL coupled rigid bodies............ 0 + + Number of vehicles to be initialized........... 0 + + Coupling with CFD.............................. 0 + eq.0: off (default) + eq.1: FAST3D + eq.2: boundary element method + + + CONTROL CARD 18. Computation Options-Output Control + + printout of node, element, velocity input data. 0 + eq.0: on + eq.1: off + + time zero printout of element time step size... 0 + eq.0: no printout + eq.1: print dt for each element at t=0 + + problem status report interval in printer file. 100 + + number of cycles between restart dumps.........99999999 + + number of cycles between running restart dumps.99999999 + + number of files to rewrite running restart .... 1 + + printout of force types to bndout file......... + eq.0: on + eq.1: off + nodal force groups................. 0 + concentrated nodal forces.......... 0 + pressure boundary conditions....... 0 + disp/vel/acc nodal BC.............. 0 + + + node and element printout suppression.......... 0 + eq.1: nodal data is not echoed + eq.2: element data is not echoed + eq.3: node and element data is not echoed + + debug information in messag file option........ 0 + eq.0: no + eq.1: yes + + update of beam reference nodes................. 0 + eq.0: off + eq.1: on-unique reference nodes required + + averaged acceleration-print/time history files. 0 + eq.0: no average (default) + eq.1: averaged between output intervals + eq.2: user defined filtering + + output interval for interface file............. 0.4000E-03 + + default print flag for the RBDOUT/MATSUM files 0 + eq.0: RBDOUT and MATSUM + eq.1: RBDOUT only + eq.2: MATSUM only + eq.3: no output + + include eroded and lumped mass in MATSUM ...... 0 + eq.0: no + eq.1: yes + + include 10-node connectivities in D3PLOT ...... 2 + eq.1: yes + eq.2: no + + write spring forward database at termination... 0 + eq.0: no + eq.1: include all deformable nodes + eq.2: include nodes of material subset + + d3plot and d3thdt binary output format......... 0 + eq.0 default + eq.1 32ieee + + flush output file interval..................... 5000 + + output interval for d3part database............ 0.0000E+00 + + interval via load curve for part database...... 0 + + number of part blocks.......................... 0 + + Maximum number of messages..................... 0 + + Print flag for digitized curve data............ 0 + + Print info. of 1d belt created for 2d belt..... 0 + + ELOUT shell output coordinate system flag...... 0 + + eq.0 default + eq.1 local element coordinate system + eq.2 global coordinate sytstem + number of parts removed from d3plot ........... 0 + + number of levels of timing at termination ..... 2 + + max frequency of element failure summaries..... 1 + + shell element stress extrapolation............. 0 + + eq.0 default: no extrapolation + eq.1 extrapolate stress for linear materials only + + solid element stress extrapolation............. 0 + + eq.0 default: no extrapolation + eq.1 extrapolate stress for linear materials only + eq.2 extrapolate stress if plastic strain is zero + eq.3 extrapolate stress always + eq.4 extrapolate all history variables + + phase change output control.................... 0 + eq.0 default: no messag + + eq.1 write out element ID at time of phase change + DEM density output control..................... 0 + eq.0 default: no messag + eq.1 write out density data + + quadratic solid element output................. 0 + eq.0: default to lower order output only + eq.1: write out connectivies for geometry + no extra integration data written + eq.2: write out connectivies for geometry + + extra integration points + + cubic solid element output..................... 0 + eq.0: default to lower order output only + eq.1: write out connectivies for geometry + no extra integration data written + eq.2: write out connectivies for geometry + + extra integration points + + names of history variables listed per part..... 0 + eq.0: no + eq.1: in d3hsp + eq.2: in d3hsp and in file hisnames.xml + + results output for deleted elements ........... 0 + eq.0 default: off + eq.1 on + + + + CONTROL CARD 19. Computation Options-Output Energy + + hourglass energy calculation................... 2 + eq.1: off (default) + eq.2: on + + rigid wall energy calculations................. 2 + eq.1: off (default) + eq.2: on + + contact energy calculation..................... 2 + eq.1: off + eq.2: on + + flag for rayleigh damping energy calculations.. 0 + eq.1: off (default) + eq.2: on + + flag for reference geometry energy calculations 2 + eq.1: off + eq.2: on (default) + + material energy details ....................... 1 + eq.1: off (default) + eq.2: on + + flag for material energy in D3THDT file........ 2 + eq.1: off + eq.2: on (default) + + + CONTROL CARD 20. Computation Options-LS-POST Database + + time step between dumps of complete state data. 0.4000E-02 + + output interval for interface force database... 0.4000E-02 + + time step between dumps of time history data... 0.0000E+00 + + number of nodal printout blocks................ 0 + + number of solid element printout blocks........ 0 + + number of beam element printout blocks......... 0 + + number of discrete element printout blocks..... 0 + + number of seatbelt element printout blocks..... 0 + + number of shell element printout blocks........ 0 + + number of thick shell element printout blocks.. 0 + + load curve-interval between state data dumps... 0 + + behavior of state data dump curve.............. 1 + eq.1: load curve value added to current time + eq.2: plot time T=current t+curve at T + eq.3: plot at each ordinate point + + load curve-interval between force data dumps... 0 + + load curve-interval between history data dumps. 0 + + flag, user output into shell resultant vector.. 0 + eq.1: off (default) + eq.2: on, user subroutine is called + + number of subsystems for SSSTAT file .......... 0 + + behavior of intfor data curve.................. 1 + eq.1: load curve value added to current time + eq.2: plot time T=current t+curve at T + eq.3: plot at each ordinate point + + + CONTROL CARD 21. Computation Options LS-POST Database + + flag to write ls-post database during dyn rel.. 0 + eq.0: no database write (default) + eq.1: write database at convergence check + eq.n: write database at nth check + + number of extra history variables for solids... 0 + + number of integration points output/solid ..... 1 + + number of extra history var/int.pt for shells.. 0 + + number of integration points output/shell ..... 3 + lt.0: also output 4 points in plane + + flag for including strain tensor in database... 0 + STRFLG[NML] = L + M*10 + N*100 + eq.0: exclude (default) + L.eq.1: Write strain tensor data to d3plot & elout + M.EQ.1: Write plastic strain data to d3plot + N.EQ.1: Write thermal strain data to d3plot + + flag for including stress tensor in database... 1 + eq.1: include (default) + eq.2: exclude for shells, include for solids + eq.3: exclude for shells and solids + + flag for including effective plastic strain.... 1 + eq.1: include (default) + eq.2: exclude for shells, include for solids + eq.3: exclude for shells and solids + + flag for including shell resultants............ 1 + eq.1: include (default) + eq.2: exclude + + flag for including shell energy and thickness.. 1 + eq.1: include (default) + eq.2: exclude + + every state is written to a separate file...... 0 + eq.0: off (default) + eq.1: only one state per plotfile + + composite material stress output .............. 0 + eq.-1: same as 1, but fiber stress and strain + are engineering measured in material + 34 + eq. 0: global + eq. 1: local + eq. 2: local, additional information + output in place of shell resultants + + number of integration points output/beam ...... 0 + + data compression to eliminate rigid body data.. 1 + nodal velocities, and nodal accelerations + eq.1: off + eq.2: on -rigid bodies + eq.3: off-rigid bodies-on nodal data + eq.4: on -rigid bodies-on nodal data + + output shell element hourglass energy.......... 1 + eq.1: off + eq.2: on + + output shell element dt, mass, added mass...... 1 + eq.1: off + eq.2: output dt + eq.3: output mass + + peak pressure flag............................. 0 + eq.1: on + + filter parameter............................... 0.0000E+00 + + flag for solid element additional output....... 0 + eq.1: output 3 additional variables + eq.2: output 5 additional variables + eq.4: output 7 additional variables + + flag for scaled mass output to the d3plot file. 0 + eq.1: output mass increment + eq.2: output percentage increase + + flag for thermal data.......................... 1 + eq.0 or 1: output temperature + eq.2: output temperature and flux + eq.3: output temp, flux, and thick shell temps + + flag for including stress tensor at int. point 0 + eq.0: exclude (default) + eq.1: include stress (solid and shells) + + flag for including stress tensor at nodes ..... 0 + eq.0: exclude (default) + eq.1: include local stress (solid and shell) + eq.2: include global stress (solid and shell) + + flag for including strain tensor at int. point 0 + eq.0: exclude (default) + eq.1: include strains (solid and shells) + + flag for including strain tensor at nodes ..... 0 + eq.0: exclude (default) + eq.1: include local strain (solid and shell) + eq.2: include global strain (solid and shell) + output interval for blast force database....... 0.0000E+00 + lt.0: interval specified by load curve + + + CONTROL CARD 22. Computation Options-ASCII Output I + + output interval for cross section forces....... 0.0000E+00 + output interval for rigid wall forces ......... 0.4000E-03 + output interval for nodal print blocks......... 0.0000E+00 + output interval for element print blocks....... 0.0000E+00 + output interval for global statistics ......... 0.4000E-03 + output interval for subsystem statistics ...... 0.0000E+00 + output interval for discrete elements.......... 0.0000E+00 + output interval for material summaries......... 0.4000E-03 + output interval for nodal interface forces..... 0.0000E+00 + output mass properties in subsystem statistics. 0 + output mass properties in global statistics.... 0 + additional history variables output-solids..... 0 + additional history variables output-shells..... 0 + additional history variables output-tshells.... 0 + additional history variables output-beams...... 0 + + + + CONTROL CARD 23. Computation Options-ASCII Output II + + output interval for resultant interface forces. 0.4000E-03 + output interval for smug nodal data............ 0.0000E+00 + output interval for sp constraint forces....... 0.0000E+00 + output interval for nodal constraint forces.... 0.0000E+00 + output interval for airbag statistics.......... 0.0000E+00 + output interval for avs filter................. 0.0000E+00 + output interval for nodal force groups......... 0.0000E+00 + output interval for b.c. forces and energy .... 0.0000E+00 + + + + CONTROL CARD 24. Computation Options-ASCII Output III + + output interval for rigid body data............ 0.0000E+00 + output interval for geometric contact entities. 0.0000E+00 + output interval for mpgs database............. 0.0000E+00 + output interval for movie database............. 0.0000E+00 + output interval for interface energies......... 0.4000E-03 + output interval for seatbelt response.......... 0.0000E+00 + output interval for joint forces............... 0.0000E+00 + output interval for tracer particles........... 0.0000E+00 + output interval for discrete beam data......... 0.0000E+00 + output type for discrete beam data ............ 0 + curve id for discrete beam data ............... 0 + option for ascii output time for discrete beam. 0 + + output interval for pulley element data........ 0.0000E+00 + output type for pulley element data ........... 0 + curve id for pulley element data .............. 0 + option for ascii output time for pulley element 0 + + output interval for bearing element data........ 0.0000E+00 + output type for bearing element data ........... 1 + curve id for bearing element data .............. 0 + option for ascii output time for bearing ....... 0 + + output interval for des mass flow data.......... 0.0000E+00 + output type for des mass flow data ............. 1 + curve id for des mass flow data ................ 0 + option for ascii output time for des mass flow.. 0 + + output interval for curvout .................... 0.0000E+00 + output type for curvout ........................ 1 + curve id for curvout ........................... 0 + option for ascii output time for curvout ....... 0 + + output interval for SPH mass flow data.......... 0.0000E+00 + output type for SPH mass flow data ............. 1 + curve id for SPH mass flow data ................ 0 + option for ascii output time for SPH mass flow.. 0 + + + + CONTROL CARD 25. CONTROL_ALE 1st card + + Default continuum treatment.................... 0 + eq.-1: Improved Advection + ne.-1: Default advection (Legacy) + Number of cycles between rezones............... 0 + + Advection formulation.......................... 0 + eq.1: Donor Cell + HIS + eq.2: Van Leer + HIS (default) + + Relaxation factor 1 (simple average)........... -0.1000E+01 + + Relaxation factor 2 (volume weighting)......... 0.0000E+00 + + Relaxation factor 3 (isoparametric)............ 0.0000E+00 + + Relaxation factor 4 (equipotential)............ 0.0000E+00 + + Relaxation factor 5 (equilibrium).............. 0.0000E+00 + + + CONTROL CARD 26. CONTROL_ALE 2nd card + + time to begin rezoning......................... 0.0000E+00 + + time to end rezoning........................... 0.0000E+00 + + SALE advection factor.......................... 0.0000E+00 + + Void factor.................................... 0.1000E-05 + + Pressure equilibrium........................... 0 + eq.0: Off + eq.1: On + + Automatic euler boundary condition flag........ 0.0000E+00 + eq.0: Off. + eq.1: On with stick condition. + eq.2: On with slip condition. + + Reference pressure............................. 0.0000E+00 + + Node set excluded from EBC (see NSIDEBC)....... 0 + + + CONTROL CARD 26. CONTROL_ALE 3rd card + + Number of cycles between ALE coupling.......... 1 + + Number of cycles between ALE bucket sort....... 50 + + A flag to control mass scaling for ALE parts... 0 + + A flag to control pressure locking pattern..... 0.0000E+00 + + BEAMIN flag.................................... 0 + + Reference pressure by ALE group..see load curve 0 + + Max. pressure difference to cancel nodal forces 0.0000E+00 + + Dynamic viscous time step factor (DTMU)........ 0.0000E+00 + + + CONTROL CARD 26. CONTROL_ALE 4th card + + Flag to optimize the coupling MPP.............. 0 + + Flag to include ALE in the dynamic relaxation.. 0 + + Number of ALE groups allowed to flow in.......: 0 + ALE group: + + + CONTROL CARD 26. Other ALE parameters + + Number of multi-material Euler groups.......... 0 + + number of void materials....................... 0 + + Number of non-interacting Euler materials...... 0 + + Number of parts considered in ALE convection... 0 + + Number of ALE Multi-material group switching... 0 + + Number of ALE mixing length.................... 0 + + Number of ALE coupling to nodes ............... 0 + + Number of ALE essential boundaries ............ 0 + + Number of ALE tracer particles ................ 0 + + Output interval for euler statistics........... 0.0000E+00 + + + CPM output format.............................. 11 + eq.11: Version 3 (full output) + eq.21: Version 4 (full output) + eq.22: (coordinates) + eq.23: (summary) + # of CPM airbag interaction.................... 0 + + # of cycle for CPM repartition................. 5 + CPM time step control.......................... 0 + eq.0: no control + eq.1: set CPM timestep size as 1 usec + CPM check bag and chamber connectivity......... 0 + eq.0: no + eq.1: yes (error termination if detected) + CPM blockage option............................ 0 + eq.0: no + eq.1: yes + Scale factor of force decay constant........... 0.1000E+01 + Adjust energy due to rigid body motion......... 0 + eq.0: no (default) + eq.1: yes + Energy transfer between P2P.................... 0 + eq.0: Default + eq.1: Algorithm 1 + + + + PG output format............................... 11 + eq.11: Version 3 (full output) + eq.21: Version 4 (full output) + eq.22: (coordinates) + eq.23: (summary) + # of PG airbag interaction..................... 0 + + # of cycle for PG repartition.................. 5 + PG time step control........................... 0 + eq.0: no control + eq.1: set PG timestep size as 1 usec + + + CONTROL CARD 37. SPH 1st card + + Sort frequency................................. 1 + + Box activation................................. 0 + + First option................................... 0.1000E+11 + + Space dimension................................ 2 + + Memory allocation for neighbors MEMORY......... 150 + allocation type:........................ DYNAMIC + + Particle approximation......................... 0 + eq.0: Standard gather form (Lacome-Vila 1998) + eq.1: Renormalization (Ben Moussa-Vila 1998) + eq.2: Symmetric formulation (Benz 1989) + eq.3: Symmetric renormalization (Libersky 1993) + eq.4: Elliptic smoothing length + eq.5: Fluid formulation + eq.6: Renormalized fluid formulation + eq.7: Total Lagrangian formulation + eq.8: Renormalized Total Lagrangian formulation + + Start time of SPH analysis..................... 0.0000E+00 + + Maximum velocity............................... 0.1000E+16 + + Contact definition between SPH parts........... 0 + eq.0: Approximation is computed + eq.1: Approximation is not computed + + Time derivative for smoothing length........... 0 + Initial smooth length computation option....... 0 + Display options for SPH particles.............. 0 + Erosion control option for SPH particles....... 0 + Contact treatment for deactivated particles.... 0 + eq.0: Contact remains active + eq.1: Contact becomes inactive + + Artificial viscosity for SPH particles......... 0 + eq.0: Monaghan type bulk viscosity (change + to bulk coefficents recommended) + eq.1: Solid elements type bulk viscosity + Thickness option for contact................... 0 + Total MLS stabilization flag................... 0 + SPH Pressure smoothing parameter............... 1 + + + + CONTROL CARD 38. SPH group number............. 1 + + Number of particles............................ 25 + + Number of material............................. 101 + + Smoothing length constant...................... 0.1300E+01 + + Minimum smoothing length ...................... 0.2000E+00 + + Maximum smoothing length ...................... 0.2000E+01 + + Initial smoothing length ...................... 0.0000E+00 + eq.0: calculated by LS-DYNA + + Death time for SPH material.................... 0.1000E+21 + + Start time for SPH material.................... 0.0000E+00 + + + + + CONTROL CARD 50. EFG + + ispline ....................................... 0 + + idila.......................................... 0 + + inint.......................................... 0 + + iefgs.......................................... 0 + + intfs.......................................... 0 + + + + p a r t d e f i n i t i o n s + + material type + eq.1 isotropic + eq.2 orthotropic + eq.3 elastoplastic ( von mises ) + eq.4 thermo-elastic-plastic + eq.5 soil and crushable foam model + eq.6 viscoelastic model + eq.7 blatz-ko finite elastic rubber + eq.8 high explosive model + eq.9 null material + eq.10 hydrodynamic - elastic-plastic + eq.11 steinberg - guinan model + eq.12 isotropic elastic-plastic + eq.13 elastic-plastic with failure + eq.14 crushable foam with failure + eq.15 johnson/cook plasticity model + eq.16 pseudo tensor geological model + eq.17 elastoplastic with fracture + eq.18 power law isotropic plasticity + eq.19 strainrate sensitive plasticity + eq.20 rigid material + eq.21 thermal orthotropic(12 constants) + eq.22 composite material damage model + eq.23 thermal orthotropic(12 curves) + eq.24 piecewise linear plasticity + eq.25 soil cap model by taylor + eq.26 crushable metallic honeycomb + eq.27 hyperelastic mooney-rivlin + eq.28 shell/beam resultant plasticity + eq.29 beam resultant force limited + eq.30 shape-memory alloy + eq.31 frazer-nash rubber model + eq.32 safety glass + eq.33 barlat's anisotropic plasticity + eq.34 fabric + eq.35 elastoplastic (green-naghdi rate) + eq.36 barlat's 3-parameter plasticity + eq.36E extended barlat plasticity + eq.37 anisotropic plasticity model + eq.38 blatz-ko finite elastic foam + eq.39 fld anisotropic plasticity + eq.40 nonlinear orthotropic elastic + eq.41-50 user material models + eq.51 bammann plasticity model + eq.52 sandia damage model + eq.53 crushable cellular foam + eq.54 composite damage model(hashin) + eq.55 composite damage model(tsai-wu) + eq.57 low density urethane foam + eq.58 laminated composite fabric + eq.59 composite failure + eq.60 viscous glass model model + eq.61 maxwell/kelvin viscoelastic + eq.62 viscous foam model + eq.63 crushable foam model + eq.64 rate sensitive powerlaw plasticity + eq.65 modified armstrong-zerrilli model + eq.66 elastic resultant beams + eq.67 nonlinear elastic via load curves + eq.68 plastic resultant via load curves + eq.69 sid impact dummy damper + eq.70 hydraulic/gas damper + eq.71 cable + eq.72 k & c concrete damage + eq.73 low density viscous foam + eq.74 elastic spring discrete beam + eq.75 bilkhu/dubois crushable foam + eq.76 linear viscoelastic + eq.77 general hyperelastic/ogden + eq.78 soil/concrete + eq.79 hysteretic soil + eq.80 ramberg-osgood + eq.81 plastic damage model + eq.82 plastic orthotropic damage model + eq.83 fu-chang rate sensitive foam model + eq.84 reinforced concrete (aea winfrith, 1990) + eq.86 orthotropic viscoelastic + eq.87 cellular viscoelastic rubber + eq.88 material threshold stress (mts) + eq.89 plasticity polymer + eq.90 acoustic media + eq.91 hyperelastic soft tissue + eq.92 visco-hyperelastic soft tissue + eq.93 elastic 6-dof spring + eq.94 inelastic spring discrete beam + eq.95 inelastic 6-dof spring + eq.96 brittle damage + eq.97 general joint discrete beam + eq.98 simplified johnson cook + eq.99 simplified johnson cook with damage + eq.100 spotweld material + eq.101 ge rate sensitive plasticity + eq.102 inverse hyperbolic sine + eq.103 viscoplastic model (ntnu, 1996) + eq.104 damage model 1 (ntnu, 1997) + eq.105 damage model 2 (ntnu, 1997) + eq.106 elastic viscoplastic thermal + eq.107 modified johnson cook + eq.108 orthotropic elastic plastic + eq.110 johnson/holmquist ceramics + eq.111 johnson/holmquist concrete + eq.112 finite elastic strain plasticity + eq.113 trip for austenitic stainless + eq.114 layered piecewise linear plasticity + eq.115 unified creep + eq.116 composite lay up + eq.117 composite matrix + eq.118 composite direct + eq.119 general nonlinear 6dof discrete beam + eq.120 gurson + eq.121 general nonlinear 1dof discrete beam + eq.122 hill 3r + eq.123 modified piecewise linear plasticity + eq.124 compression-tension plasticity + eq.125 yoshida kinematic plasticity model + eq.126 crushable metallic honeycomb + eq.127 arruda-boyce hyper-viscoelastic + eq.128 heart tissue + eq.129 lung hyper-viscoelastic + eq.130 special orthotropic + eq.131 tno isotropic smeared crack model + eq.132 tno orthotropic smeared crack model + eq.133 barlat yld2000 + eq.135 wtm/stm + eq.136 orthotropic vegter model + eq.137 anisotropic ito-goya model + eq.139 modified resultant beam force limited + eq.140 vacuum + eq.141 rate sensitive polymer + eq.142 transversly isotropic crushable foam + eq.143 aptek orthotropic wood + eq.144 pitzer crushable foam + eq.145 continuous surface cap with damage + eq.146 1dof generalized spring + eq.147 fhwa soil + eq.148 gas mixture + eq.150 cfd - constant properties + eq.152 hyperbolic tangent thermal + eq.153 damage model 3 + eq.154 deshpande fleck foam model + eq.155 compression-tension eos model + eq.156 muscle model + eq.157 anisotropic elastic plastic + eq.158 rate sensitive composite fabric + eq.159 continuous surface cap + eq.161 composite msc + eq.162 composite dmg msc + eq.163 modified crushable foam + eq.164 brain linear viscoelastic + eq.165 plastic nonlinear kinematic + eq.166 moment curvature beam + eq.167 mccormick + eq.168 polymer + eq.169 arup adhesive + eq.170 resultant anisotropic + eq.171 steel concentric brace + eq.172 concrete ec2 + eq.173 mohr couloumb + eq.174 rc beam + eq.176 quasilinear viscoelastic + eq.177 hill foam + eq.178 viscoelastic hill foam + eq.179 low density synthetic foam + eq.180 low density synthetic foam ortho + eq.181 simplified rubber model + eq.182 viscoelastic plastic model + eq.187 semi-analytical model for polymers + eq.188 thermo elastic viscoplastic creep + eq.189 anisotropic thermo elastic + eq.190 barlat 3-parameter fld plasticity + eq.191 seismic beam + eq.192 soil brick + eq.193 drucker prager + eq.194 rc shear wall + eq.195 concrete beam + eq.196 general spring discrete beam + eq.197 seismic isolator + eq.198 jointed rock + eq.199 barlat yld2004 + eq.202 steel EC3 + eq.203 hysteretic reinforcement + eq.205 discrete beam surface contact + eq.206 Park Ang beam + eq.208 bolt beam + eq.213 composite tab. plast. damage v1.3.4 + eq.214 dry fabric + eq.215 4A micromec + eq.219 codam2 + eq.220 rigid material discrete particles + eq.221 orthotropic simplified damage + eq.222 genoa material for laminates + eq.223 orthotropic advanced damage + eq.224 tabulated johnson cook + eq.225 viscoplastic mixed hardening + eq.230 elastic pml + eq.231 acoustic pml + eq.232 biot hysteretic + eq.233 cazacu barlat + eq.234 viscoelastic loose fabric + eq.235 micromechanics dry fabric + eq.236 silicon carbid coating on RCC + eq.237 hysteretic pml + eq.242 barlat yld2000 Yoshida hardening + eq.243 hill 90 + eq.244 ultra high strength steel + eq.248 press hardening steel bmw model + eq.249 reinforced thermoplastic + eq.250 aedm (working name) + eq.251 tailored properties + eq.252 toughened adhesive polymer + eq.255 piecewise linear plastic thermal + eq.256 amorphous solids finite stain + eq.258 non quadratic with failure + eq.260 Stoughton non-associated flow + eq.261 laminated fracture daimler pinho + eq.262 laminated fracture daimler camanho + eq.263 Lou-Yoon + eq.264 tabulated johnson cook ortho plastic + eq.265 constrained spr + eq.266 tissue dispersed + eq.267 eight chain rubber + eq.269 bergstrom-boyce rubber model + eq.270 computational welding mechanics model + eq.271 powder compaction model + eq.272 RHT concrete + eq.273 CDPM concrete + eq.274 paper + eq.275 smooth viscoelastic viscoplastic + eq.279 cohesive paper + eq.291 energy based shape memory alloy + eq.295 anisotropic hyperelastic + equation-of-state types + eq.1 linear polynomial + eq.2 jwl high explosive + eq.3 sack tuesday high explosive + eq.4 gruneisen + eq.5 ratio of polynomials + eq.6 linear polynomial with source + eq.7 initiation and reaction in he + eq.8 compaction + eq.9 tabulated + eq.11 tensor pore collapse + eq.14 jwlb high explosive + eq.15 one-dimensional gasket + eq.16 mie-gruneisen with p-alpha + hourglass models + eq.1 viscous + eq.2 flanagan-belytschko viscous form + eq.3 full flanagan-belytschko viscous form + (constant stress solid elements) + eq.4 flanagan-belytschko stiffness form + eq.5 full flanagan-belytschko stiffness form + eq.6 bindeman-belytschko stiffness form + (solid 2d and 3d elements) + eq.7 linear total strain stiffness form + (solid 2d and 3d elements) + eq.9 puso stiffness form (solid 3d elements) + eq.10 cosserat total strain stiffness form + (solid 3d elements) + bulk viscosity models + eq.1 standard + defaults + hourglass model....................... 2 + hourglass coefficient................. 1.00000E-01 + bulk viscosity type................... 1 + quadratic bulk viscosity coefficient.. 1.50000E+00 + linear bulk viscosity coefficient..... 6.00000E-02 + + *********************************************************************** + + + + + part id ..................... 101 + section id ..................... 101 + material id ..................... 1 + section title .................. + + material title .................. + + material type .............. 3 + equation-of-state type ..... 0 + hourglass type ............. 2 + bulk viscosity type ........ 1 + density .......................... = 2.71000E-03 + hourglass coefficient ............ = 1.00000E-01 + quadratic bulk viscosity ......... = 1.50000E+00 + linear bulk viscosity ............ = 6.00000E-02 + element type ..................... = 4 + eq.0: 4, 6, 8, 10-node solid element + eq.1: 2-node beam or truss or 2D shell element + eq.2: 3, 4-node membrane/shell or 2D continuum element + eq.3: 8-node thick shell element + eq.4: SPH element + flag for bulk viscosity in shells. = 0 + flag for rbdout/matsum output ... = 0 + eq.0: rbdout and matsum + eq.1: rbdout only + eq.2: matsum only + eq.3: no output + static coefficient of friction ... = 0.00000E+00 + kinetic coefficient of friction... = 0.00000E+00 + exponential decay coefficient .... = 0.00000E+00 + viscous friction coefficient ..... = 0.00000E+00 + optional contact thickness ....... = 0.00000E+00 + optional thickness scale factor... = 0.00000E+00 + local penalty scale factor........ = 0.00000E+00 + optional beam to beam cparm8...... = 0 + flag for adaptive remeshing ...... = 0 + eq.0: inactive + eq.1: h-adaptive only + eq.2: r-adaptive only + relative offset of cohesive + reference surface .................= 0.00000E+00 + gasket element thickness ..........= 0.00000E+00 + rayleigh damping coefficient...... = 0.00000E+00 + e ................................ = 6.89000E+04 + vnu .............................. = 3.30000E-01 + yield ............................ = 1.17000E+02 + e (harden) ....................... = 6.80000E+00 + hardening parmeter ............... = 1.00000E+00 + strainrate parameter, c .......... = 0.00000E+00 + strainrate parameter, p .......... = 0.00000E+00 + formulation for rate effects ..... = 0.00000E+00 + eq.0.0: default + eq.1.0: viscoplastic + failure strain for erosion........ = 0.00000E+00 + solid formulation ............... = 0 + eq.-2: 8 point integration-3dof/node + for poor aspect ratio elements + eq.-1: 8 point integration-3dof/node + for poor aspect ratio elements + (efficient variant of -2 but + prone to some hourglassing) + eq. 1: 1 point integration + eq. 2: 8 point integration-3dof/node + eq. 3: 14 point integration-6dof/node + eq. 4: 5 point tetrahedron-6dof/node + eq. 5: 1 point ale + eq. 6: 1 point eulerian + eq. 7: 1 point eulerian ambient + eq. 8: 1 point acoustic + eq. 9: 1 point corotational + eq.10: 1 point tetrahedron + eq.11: multi-material eulerian + eq.12: eulerian with void + eq.13: nodal pressure tetrahedron + eq.14: 8 point acoustic + eq.15: 2 point pentahedron + eq.115: 1 point pentahedron + eq.16: 10-node quadratic tetrahedron + eq.17: 10-node composite tetrahedron + eq.18: linear static element + eq.19: 8-node 2x2 cohesive + eq.20: 8-node 2x2 cohesive with offsets for shells + eq.21: 6-node 1x1 cohesive + eq.22: 6-node 1x1 cohesive with offsets for shells + eq.23: 20-node quadratic hexahedron + eq.41: efg 3d + eq.42: efg 3d for 4-noded background + eq.43: mesh-free enriched finite element + eq.47: smoothed particle Galerkin method + eq.99: elastic vibration element + corotational local coord. ........ = 0 + eq. 0: not requested + eq. 1: requested + + *********************************************************************** + + + null shells for visualization + + part id ..................... 1 + section id ..................... -12345677 + material id ..................... 0 + section title .................. + material title .................. + material type .............. 9 + equation-of-state type ..... 0 + hourglass type ............. 2 + bulk viscosity type ........ 1 + density .......................... = 1.30000E-13 + hourglass coefficient (membrane).. = 1.00000E-01 + hourglass coefficient (rotation).. = 1.00000E-01 + hourglass coefficient (warping ).. = 1.00000E-01 + quadratic bulk viscosity ......... = 1.50000E+00 + linear bulk viscosity ............ = 6.00000E-02 + element type ..................... = 2 + eq.0: 4, 6, 8, 10-node solid element + eq.1: 2-node beam or truss or 2D shell element + eq.2: 3, 4-node membrane/shell or 2D continuum element + eq.3: 8-node thick shell element + eq.4: SPH element + flag for bulk viscosity in shells. = 0 + flag for rbdout/matsum output ... = 0 + eq.0: rbdout and matsum + eq.1: rbdout only + eq.2: matsum only + eq.3: no output + static coefficient of friction ... = 0.00000E+00 + kinetic coefficient of friction... = 0.00000E+00 + exponential decay coefficient .... = 0.00000E+00 + viscous friction coefficient ..... = 0.00000E+00 + optional contact thickness ....... = 0.00000E+00 + optional thickness scale factor... = 0.00000E+00 + local penalty scale factor........ = 0.00000E+00 + optional beam to beam cparm8...... = 0 + flag for adaptive remeshing ...... = 0 + eq.0: inactive + eq.1: h-adaptive only + eq.2: r-adaptive only + rayleigh damping coefficient...... = 0.00000E+00 + pressure cutoff .................. = 0.00000E+00 + viscosity coefficient ............ = 0.00000E+00 + relative volume for tensile fail.. = 0.00000E+00 + relative volume for compres fail.. = 0.00000E+00 + e ..(null shells and beams)....... = 0.00000E+00 + vnu (null shells and beams)....... = 0.00000E+00 + shear area factor ................ = 1.00000E+00 + thru-thickness integration points = 2.00000E+00 + print out option ................. = 3.00000E+00 + eq.1.0:average resultants & fiber lengths + eq.2.0:resultants at plan points & fiber lengths + eq.3.0:resultants,stresses all points & fiber lengths + integration rule ................. = 0.00000E+00 + lt.0.0:absolute value is specified rule # + eq.0.0:gauss (trapezoidal if > 10 IP) + eq.1.0:trapezoidal rule + shell formulation ................ = 2 + eq. 1: hughes-liu + eq. 2: belytschko-tsay + eq. 3: bciz + eq. 4: c0-triangular element + eq. 5: membrane element + eq. 6: s/r hughes-liu + eq. 7: s/r co-rotational hughes-liu + eq. 8: belytschko-leviathan + eq. 9: fully integrated membrane + eq. 10: belytschko-wong-chiang + eq. 11: fast hughes-liu + eq. 12: 2d plane stress + eq. 13: 2d plane strain + eq. 14: 2d axisymmetric (area wgt) + eq. 15: 2d axisymmetric (volume wgt) + eq. 16: fully integrated element + eq. -16: modified fully integrated element + eq. 17: dkt element + eq. 18: dkq-dkt linear element + eq. 20: assumed strain linear element + eq. 21: assumed strain linear elem(5DOF) + eq. 22: linear shear panel element(3DOF) + eq. 23: 8-node quadratic quadrilateral + eq. 24: 6-node quadratic triangular + eq. 25: belytschko-tsay with + thickness stretch + eq. 26: fully integrated element with + thickness stretch + eq. 27: c0-triangular element with + thickness stretch + eq. 29: cohesive element for shell + edge-to-edge connections + eq. -29: cohesive element with midlayer + coordinate system for pure shear + eq. 30: fast fully integrated element with + 2 in-plane integration points + eq. 41: meshfree shell local projection + eq. 42: meshfree shell global projection + eq. 43: meshfree plane strain + eq. 44: meshfree axisymmetric solid + eq. 46: cohesive element compatible with + 2D plane stress, plane strain, or + area-weighted axisymmetric + elements + eq. 47: cohesive element compatible with + 2d volume-weighted axisymmetric + elements + eq. 52: 2d plane strain xfem + eq. 54: 4-node quadrilateral shell xfem + eq. 55: 8-node 2D plane strain fracture + eq. 98: interpolation shell element + eq. 99: elastic vibration element + eq. 201: isogeometric nurbs element + ge.1000: user defined (generalized) shell + shell thickness: node 1 .. = 1.00000E-09 + node 2 .. = 1.00000E-09 + node 3 .. = 1.00000E-09 + node 4 .. = 1.00000E-09 + shell thickness scale factor ..... = 0.00000E+00 + reference surface ................ = 0.00000E+00 + eq. 1.0:top + eq. 0.0:middle + eq.-1.0:bottom + mass per unit area ............... = 0.00000E+00 + flag for discontinuous thickness + field for elements with thickness + stretch .......................... = 2 + eq. 0: default is 1 + eq. 1: thickness field is continuous + eq. 2: thickness field is discontinous + eq. 3: thickness strain is governed by + the contact stress + accurate type 16 formulation...... = 0 + + + + + + + + + n o d a l p o i n t c o o r d i n a t e s + node ID trnbc x-ord y-ord z-ord rotbc + 1001801 0.0 0.4998E+00 -0.1105E+02 0.0000E+00 0.0 + 1001802 0.0 0.7115E+00 -0.1105E+02 0.0000E+00 0.0 + 1001803 0.0 0.9232E+00 -0.1105E+02 0.0000E+00 0.0 + 1001804 0.0 0.1135E+01 -0.1105E+02 0.0000E+00 0.0 + 1001805 0.0 0.1347E+01 -0.1105E+02 0.0000E+00 0.0 + 1001921 0.0 0.4998E+00 -0.1086E+02 0.0000E+00 0.0 + 1001922 0.0 0.7115E+00 -0.1086E+02 0.0000E+00 0.0 + 1001923 0.0 0.9232E+00 -0.1086E+02 0.0000E+00 0.0 + 1001924 0.0 0.1135E+01 -0.1086E+02 0.0000E+00 0.0 + 1001925 0.0 0.1347E+01 -0.1086E+02 0.0000E+00 0.0 + 1002041 0.0 0.4998E+00 -0.1067E+02 0.0000E+00 0.0 + 1002042 0.0 0.7115E+00 -0.1067E+02 0.0000E+00 0.0 + 1002043 0.0 0.9232E+00 -0.1067E+02 0.0000E+00 0.0 + 1002044 0.0 0.1135E+01 -0.1067E+02 0.0000E+00 0.0 + 1002045 0.0 0.1347E+01 -0.1067E+02 0.0000E+00 0.0 + 1002161 0.0 0.4998E+00 -0.1048E+02 0.0000E+00 0.0 + 1002162 0.0 0.7115E+00 -0.1048E+02 0.0000E+00 0.0 + 1002163 0.0 0.9232E+00 -0.1048E+02 0.0000E+00 0.0 + 1002164 0.0 0.1135E+01 -0.1048E+02 0.0000E+00 0.0 + 1002165 0.0 0.1347E+01 -0.1048E+02 0.0000E+00 0.0 + 1002281 0.0 0.4998E+00 -0.1029E+02 0.0000E+00 0.0 + 1002282 0.0 0.7115E+00 -0.1029E+02 0.0000E+00 0.0 + 1002283 0.0 0.9232E+00 -0.1029E+02 0.0000E+00 0.0 + 1002284 0.0 0.1135E+01 -0.1029E+02 0.0000E+00 0.0 + 1002285 0.0 0.1347E+01 -0.1029E+02 0.0000E+00 0.0 + 1002286 7.0 0.0000E+00 -0.1026E+02 0.2540E-01 7.0 + 1002287 7.0 0.0000E+00 -0.1026E+02 -0.2540E-01 7.0 + 1002288 7.0 0.0000E+00 -0.1107E+02 -0.2540E-01 7.0 + 1002289 7.0 0.0000E+00 -0.1107E+02 0.2540E-01 7.0 + + + n o d a l s p c s u m m a r y o n *NODE cards + boundary conditions (on=1) + node x y z rx ry rz + 1002286 1 1 1 1 1 1 + 1002287 1 1 1 1 1 1 + 1002288 1 1 1 1 1 1 + 1002289 1 1 1 1 1 1 + + + s h e l l e l e m e n t s + elem id part id node1 node2 node3 node4 + thick1 thick2 thick3 thick4 angle offset + 1 1 1002286 1002287 1002288 1002289 + 1.0000E-09 1.0000E-09 1.0000E-09 1.0000E-09 0.0000E+00 0.0000E+00 + + + + S P H e l e m e n t m a s s d a t a + + element id mat id mass + 1001801 101 0.1093E-03 + 1001802 101 0.1093E-03 + 1001803 101 0.1093E-03 + 1001804 101 0.1093E-03 + 1001805 101 0.1093E-03 + 1001921 101 0.1093E-03 + 1001922 101 0.1093E-03 + 1001923 101 0.1093E-03 + 1001924 101 0.1093E-03 + 1001925 101 0.1093E-03 + 1002041 101 0.1093E-03 + 1002042 101 0.1093E-03 + 1002043 101 0.1093E-03 + 1002044 101 0.1093E-03 + 1002045 101 0.1093E-03 + 1002161 101 0.1093E-03 + 1002162 101 0.1093E-03 + 1002163 101 0.1093E-03 + 1002164 101 0.1093E-03 + 1002165 101 0.1093E-03 + 1002281 101 0.1093E-03 + 1002282 101 0.1093E-03 + 1002283 101 0.1093E-03 + 1002284 101 0.1093E-03 + 1002285 101 0.1093E-03 + + + + r i g i d w a l l d e f i n i t i o n s + + + + + rigidwall ID = 1 + # of slave nodes = 25 + birth time = 0.00000E+00 + death time = 0.10000E+21 + penalty scale factor = 0.10000E+01 + moving rigidwall flag = 0 + eq.1: flat rigidwall has mass and vel. + eq.2: prescribed velocity history + eq.3: prescribed displacement history + generalized rigidwall type = 0 + eq.0: flat of infinite extent + eq.1: flat with defined size + eq.2: extra nodes and softening + eq.3: options 2 and 3 active + eq.4: prescribed motion flat plate + eq.5: prescribed motion cylinder + eq.6: prescribed motion sphere + eq.7: prescribed motion prism + eq.8: prescribed motion cylinder (interior) + eq.9: prescribed motion sphere (interior) + stick condtion = 0.00000E+00 + eq.0: frictionless sliding + gt.0.and.lt.1:frictional sliding + eq.1: sticking + eq.2: normal weld + eq.3: sticking weld + + coordinates of orientation vector are + i j + 0.0000E+00 0.1000E+01 + 0.0000E+00 0.0000E+00 + 0.0000E+00 0.0000E+00 + slave nodes + 1001801 1001802 1001803 1001804 1001805 1001921 1001922 1001923 + 1001924 1001925 1002041 1002042 1002043 1002044 1002045 1002161 + 1002162 1002163 1002164 1002165 1002281 1002282 1002283 1002284 + 1002285 + + + n o d a l p o i n t v e l o c i t i e s + + node id x-vel y-vel z-vel + x-rot y-rot z-rot + 1001801 -5.0000E+01 0.0000E+00 0.0000E+00 + 0.0000E+00 0.0000E+00 0.0000E+00 + 1001802 -5.0000E+01 0.0000E+00 0.0000E+00 + 0.0000E+00 0.0000E+00 0.0000E+00 + 1001803 -5.0000E+01 0.0000E+00 0.0000E+00 + 0.0000E+00 0.0000E+00 0.0000E+00 + 1001804 -5.0000E+01 0.0000E+00 0.0000E+00 + 0.0000E+00 0.0000E+00 0.0000E+00 + 1001805 -5.0000E+01 0.0000E+00 0.0000E+00 + 0.0000E+00 0.0000E+00 0.0000E+00 + 1001921 -5.0000E+01 0.0000E+00 0.0000E+00 + 0.0000E+00 0.0000E+00 0.0000E+00 + 1001922 -5.0000E+01 0.0000E+00 0.0000E+00 + 0.0000E+00 0.0000E+00 0.0000E+00 + 1001923 -5.0000E+01 0.0000E+00 0.0000E+00 + 0.0000E+00 0.0000E+00 0.0000E+00 + 1001924 -5.0000E+01 0.0000E+00 0.0000E+00 + 0.0000E+00 0.0000E+00 0.0000E+00 + 1001925 -5.0000E+01 0.0000E+00 0.0000E+00 + 0.0000E+00 0.0000E+00 0.0000E+00 + 1002041 -5.0000E+01 0.0000E+00 0.0000E+00 + 0.0000E+00 0.0000E+00 0.0000E+00 + 1002042 -5.0000E+01 0.0000E+00 0.0000E+00 + 0.0000E+00 0.0000E+00 0.0000E+00 + 1002043 -5.0000E+01 0.0000E+00 0.0000E+00 + 0.0000E+00 0.0000E+00 0.0000E+00 + 1002044 -5.0000E+01 0.0000E+00 0.0000E+00 + 0.0000E+00 0.0000E+00 0.0000E+00 + 1002045 -5.0000E+01 0.0000E+00 0.0000E+00 + 0.0000E+00 0.0000E+00 0.0000E+00 + 1002161 -5.0000E+01 0.0000E+00 0.0000E+00 + 0.0000E+00 0.0000E+00 0.0000E+00 + 1002162 -5.0000E+01 0.0000E+00 0.0000E+00 + 0.0000E+00 0.0000E+00 0.0000E+00 + 1002163 -5.0000E+01 0.0000E+00 0.0000E+00 + 0.0000E+00 0.0000E+00 0.0000E+00 + 1002164 -5.0000E+01 0.0000E+00 0.0000E+00 + 0.0000E+00 0.0000E+00 0.0000E+00 + 1002165 -5.0000E+01 0.0000E+00 0.0000E+00 + 0.0000E+00 0.0000E+00 0.0000E+00 + 1002281 -5.0000E+01 0.0000E+00 0.0000E+00 + 0.0000E+00 0.0000E+00 0.0000E+00 + 1002282 -5.0000E+01 0.0000E+00 0.0000E+00 + 0.0000E+00 0.0000E+00 0.0000E+00 + 1002283 -5.0000E+01 0.0000E+00 0.0000E+00 + 0.0000E+00 0.0000E+00 0.0000E+00 + 1002284 -5.0000E+01 0.0000E+00 0.0000E+00 + 0.0000E+00 0.0000E+00 0.0000E+00 + 1002285 -5.0000E+01 0.0000E+00 0.0000E+00 + 0.0000E+00 0.0000E+00 0.0000E+00 + 1002286 -5.0000E+01 0.0000E+00 0.0000E+00 + 0.0000E+00 0.0000E+00 0.0000E+00 + 1002287 -5.0000E+01 0.0000E+00 0.0000E+00 + 0.0000E+00 0.0000E+00 0.0000E+00 + 1002288 -5.0000E+01 0.0000E+00 0.0000E+00 + 0.0000E+00 0.0000E+00 0.0000E+00 + 1002289 -5.0000E+01 0.0000E+00 0.0000E+00 + 0.0000E+00 0.0000E+00 0.0000E+00 + + *** S.P.H. *** + + Space dimension for SPH 2 + + Initial Smoothing length : PART # 101 0.2476504E+00 + SPH PART # 101 + hmin : 0.4953E-01 + hmax : 0.4953E+00 + +************ + + + t i e d n o d a l p a i r s f o r l i n k i n g + + + ************************************************************ + + + m a s s p r o p e r t i e s o f SPH p a r t # 101 + total mass of part = 0.27318476E-02 + x-coordinate of mass center = 0.92316645E+00 + y-coordinate of mass center =-0.10666248E+02 + z-coordinate of mass center = 0.00000000E+00 + + inertia tensor of material + row1= 0.1983E-03 0.4033E-08 0.0000E+00 + row2= 0.4033E-08 0.2448E-03 0.0000E+00 + row3= 0.0000E+00 0.0000E+00 0.4431E-03 + + ************************************************************ + + + m a s s p r o p e r t i e s o f p a r t # 1 + total mass of part = 0.53677338E-23 + x-coordinate of mass center = 0.00000000E+00 + y-coordinate of mass center =-0.57253584E-06 + z-coordinate of mass center =-0.18861088E-16 + + inertia tensor of material + row1= 0.6116E-21 0.0000E+00 0.0000E+00 + row2= 0.0000E+00 0.3463E-26 0.0000E+00 + row3= 0.0000E+00 0.0000E+00 0.6116E-21 + + principal inertias + i11 = 0.6116E-21 + i22 = 0.3463E-26 + i33 = 0.6116E-21 + + principal directions + row1= 0.1000E+01 0.0000E+00 0.0000E+00 + row2= 0.0000E+00 0.1000E+01 0.0000E+00 + row3= 0.0000E+00 0.0000E+00 0.1000E+01 + + ************************************************************ + + + m a s s p r o p e r t i e s o f b o d y + total mass of body = 0.27318473E-02 + x-coordinate of mass center = 0.92316651E+00 + y-coordinate of mass center =-0.10666249E+02 + z-coordinate of mass center = 0.00000000E+00 + + inertia tensor of body + row1= 0.1983E-03 0.2184E-08 0.0000E+00 + row2= 0.2184E-08 0.2448E-03 0.0000E+00 + row3= 0.0000E+00 0.0000E+00 0.4431E-03 + + principal inertias of body + i11 = 0.1983E-03 + i22 = 0.2448E-03 + i33 = 0.4431E-03 + + principal directions + row1= 0.1000E+01 0.4696E-04 0.0000E+00 + row2= -0.4696E-04 0.1000E+01 0.0000E+00 + row3= 0.0000E+00 0.0000E+00 0.1000E+01 + + ************************************************************ + + + ************************************************************ + + NOTE : For 2D axisymmetric problems the following + masses are reported per radian. + For 2D plain strain/stress problems the + masses are reported per unit thickness. + + summary of mass + lumped mass in deformable + part of structure mass= 0.00000000E+00 + part id = 101 mass= 0.27318476E-02 + part id = 1 mass= 0.53677311E-23 + + t o t a l m a s s = 0.27318476E-02 + x-coordinate of mass center = 0.92316651E+00 + y-coordinate of mass center =-0.10666249E+02 + z-coordinate of mass center = 0.00000000E+00 + + + + ************************************************************ + + + Make sure that every FE node gets rotary inertia: + 25 nodes out of a total of 29 nodes have no own rotational mass (e.g. solids) + and therefore get an average value of RMAVG = 1.3852E-26 + (unit of mass*length*length, e.g., kg*mm^2) + + ************************************************************ + + + S t o r a g e a l l o c a t i o n + + Memory required to begin solution : 296K + Additional dynamically allocated memory: 428K + Total: 428K + + 25 smallest timesteps + ------------------------------------------------ + element number part timestep + sph 1002285 101 5.4722E-05 + sph 1002284 101 5.4722E-05 + sph 1002283 101 5.4722E-05 + sph 1002282 101 5.4722E-05 + sph 1002281 101 5.4722E-05 + sph 1002165 101 5.4722E-05 + sph 1002164 101 5.4722E-05 + sph 1002163 101 5.4722E-05 + sph 1002162 101 5.4722E-05 + sph 1002161 101 5.4722E-05 + sph 1002045 101 5.4722E-05 + sph 1002044 101 5.4722E-05 + sph 1002043 101 5.4722E-05 + sph 1002042 101 5.4722E-05 + sph 1002041 101 5.4722E-05 + sph 1001925 101 5.4722E-05 + sph 1001924 101 5.4722E-05 + sph 1001923 101 5.4722E-05 + sph 1001922 101 5.4722E-05 + sph 1001921 101 5.4722E-05 + sph 1001805 101 5.4722E-05 + sph 1001804 101 5.4722E-05 + sph 1001803 101 5.4722E-05 + sph 1001802 101 5.4722E-05 + sph 1001801 101 5.4722E-05 + 1 t 0.0000E+00 dt 5.47E-05 flush i/o buffers 08/31/25 16:54:33 + 1 t 0.0000E+00 dt 5.47E-05 write d3plot file 08/31/25 16:54:33 + 74 t 3.9947E-03 dt 5.47E-05 write d3plot file 08/31/25 16:54:33 + 147 t 7.9894E-03 dt 5.47E-05 write d3plot file 08/31/25 16:54:33 + 220 t 1.1984E-02 dt 5.46E-05 write d3plot file 08/31/25 16:54:33 + 293 t 1.5975E-02 dt 5.47E-05 write d3plot file 08/31/25 16:54:33 + 366 t 1.9968E-02 dt 5.47E-05 write d3plot file 08/31/25 16:54:33 + 439 t 2.3961E-02 dt 5.47E-05 write d3plot file 08/31/25 16:54:33 + 512 t 2.7961E-02 dt 5.47E-05 write d3plot file 08/31/25 16:54:33 + 585 t 3.1958E-02 dt 5.47E-05 write d3plot file 08/31/25 16:54:33 + + *** termination time reached *** + 640 t 3.5031E-02 dt 5.47E-05 write d3dump01 file 08/31/25 16:54:33 + 640 t 3.5031E-02 dt 5.47E-05 write d3plot file 08/31/25 16:54:33 + + N o r m a l t e r m i n a t i o n 08/31/25 16:54:33 + + S t o r a g e a l l o c a t i o n + + Memory required to complete solution : 296K + Additional dynamically allocated memory: 483K + Total: 483K + + T i m i n g i n f o r m a t i o n + CPU(seconds) %CPU Clock(seconds) %Clock + ---------------------------------------------------------------- + Keyword Processing ... 0.0000E+00 0.00 1.1000E-02 0.85 + KW Reading ......... 0.0000E+00 0.00 1.0000E-03 0.08 + KW Writing ......... 0.0000E+00 0.00 5.0000E-03 0.39 + Initialization ....... 1.0000E+00 100.00 1.2160E+00 93.68 + Init Proc Phase 1 .. 0.0000E+00 0.00 8.0000E-03 0.62 + Init Proc Phase 2 .. 0.0000E+00 0.00 3.0000E-03 0.23 + Element processing ... 0.0000E+00 0.00 3.5000E-02 2.70 + Shells ............. 0.0000E+00 0.00 1.0000E-03 0.08 + SPH ................ 0.0000E+00 0.00 3.2000E-02 2.47 + E Other ............ 0.0000E+00 0.00 2.0000E-03 0.15 + Binary databases ..... 0.0000E+00 0.00 2.0000E-03 0.15 + ASCII database ....... 0.0000E+00 0.00 1.7000E-02 1.31 + Rigid wall ........... 0.0000E+00 0.00 1.0000E-03 0.08 + Misc. 1 .............. 0.0000E+00 0.00 5.0000E-03 0.39 + Force to Accel ..... 0.0000E+00 0.00 1.0000E-03 0.08 + Update RB nodes .... 0.0000E+00 0.00 1.0000E-03 0.08 + Misc. 3 .............. 0.0000E+00 0.00 1.0000E-02 0.77 + Misc. 4 .............. 0.0000E+00 0.00 1.0000E-03 0.08 + ---------------------------------------------------------------- + T o t a l s 1.0000E+00 100.00 1.2980E+00 100.00 + + Problem time = 3.5031E-02 + Problem cycle = 640 + Total CPU time = 1 seconds ( 0 hours 0 minutes 1 seconds) + CPU time per zone cycle = 0.000 picoseconds + Clock time per zone cycle= 4266825.500 picoseconds + + Number of CPU's 2 + NLQ used/max 136/ 136 + Start time 08/31/2025 16:54:33 + End time 08/31/2025 16:54:33 + Elapsed time 0 second for 640 cycles using 2 SMP threads + ( 0 hour 0 minute 0 second ) + + N o r m a l t e r m i n a t i o n 08/31/25 16:54:33 diff --git a/test/test_data/sph_models/R12_2_1/d3plot b/test/test_data/sph_models/R12_2_1/d3plot new file mode 100644 index 0000000..d1bda9b Binary files /dev/null and b/test/test_data/sph_models/R12_2_1/d3plot differ diff --git a/test/test_data/sph_models/R12_2_1/d3plot01 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+$# hgen rwen slnten rylen irgen maten drlen disen + 2 2 2 1 2 1 1 1 +*CONTROL_OUTPUT +$# npopt neecho nrefup iaccop opifs ipnint ikedit iflush + 0 0 0 0 0.0 0 100 5000 +*CONTROL_SPH +$# ncbs boxid dt idim nmneigh form start maxv + 0 0 0.0 2 0 0 0.0 0.0 +*CONTROL_TERMINATION +$# endtim endcyc dtmin endeng endmas nosol + 0.035 0 0.0 0.0 0.0 0 +*CONTROL_TIMESTEP +$# dtinit tssfac isdo tslimt dt2ms lctm erode ms1st + 0.0 0.9 0 0.0 0.0 0 0 0 +*DATABASE_GLSTAT +$# dt binary lcur ioopt +4.00000E-4 2 0 1 +*DATABASE_MATSUM +$# dt binary lcur ioopt +4.00000E-4 2 0 1 +*DATABASE_RCFORC +$# dt binary lcur ioopt +4.00000E-4 2 0 1 +*DATABASE_RWFORC +$# dt binary lcur ioopt +4.00000E-4 2 0 1 +*DATABASE_SLEOUT +$# dt binary lcur ioopt +4.00000E-4 2 0 1 +*DATABASE_BINARY_D3PLOT +$# dt lcdt beam npltc psetid + 0.004 0 0 0 0 +*DATABASE_EXTENT_BINARY +$# neiph neips maxint strflg sigflg epsflg rltflg engflg + 0 0 0 0 1 1 1 1 +$# cmpflg ieverp beamip dcomp shge stssz n3thdt ialemat + 0 0 0 1 1 1 2 1 +*MAT_PLASTIC_KINEMATIC +$# mid ro e pr sigy etan beta + 1 0.00271 68900.0 0.33 117.0 6.8 1.0 +$# src srp fs vp + 0.0 0.0 0.0 0.0 +*MAT_PLASTIC_KINEMATIC +$# mid ro e pr sigy etan beta + 2 0.00271 68900.0 0.33 117.0 6.8 1.0 +$# src srp fs vp + 0.0 0.0 0.0 0.0 +*INITIAL_VELOCITY +$# nsid nsidex boxid irigid icid + 0 0 0 0 0 +$# vx vy vz vxr vyr vzr + -50.0 0.0 0.0 0.0 0.0 0.0 +*PART +$# title + +$# pid secid mid eosid hgid grav adpopt tmid + 101 101 1 0 0 0 0 0 +*SECTION_SPH +$# secid cslh hmin hmax sphini death start sphkern + 101 1.3 0.0 0.0 0.0 0.0 0.0 0 +*RIGIDWALL_PLANAR_ID +$# id title + 1 +$# nsid nsidex boxid offset birth death rwksf + 0 0 0 0.0 0.01.00000E20 1.0 +$# xt yt zt xh yh zh fric wvel + 0.0 0.0 0.0 1.0 0.0 0.0 0.0 0.0 +*SET_NODE_LIST_GENERATE +$# sid da1 da2 da3 da4 solver its - + 101 0.0 0.0 0.0 0.0MECH 1 +$# b1beg b1end b2beg b2end b3beg b3end b4beg b4end + 1000001 1004800 0 0 0 0 0 0 +*NODE +$# nid x y z tc rc + 1001801 0.4998333 -11.04725 0.0 0 0 + 1001802 0.7115 -11.04725 0.0 0 0 + 1001803 0.9231666 -11.04725 0.0 0 0 + 1001804 1.134833 -11.04725 0.0 0 0 + 1001805 1.3465 -11.04725 0.0 0 0 + 1001921 0.4998333 -10.85675 0.0 0 0 + 1001922 0.7115 -10.85675 0.0 0 0 + 1001923 0.9231666 -10.85675 0.0 0 0 + 1001924 1.134833 -10.85675 0.0 0 0 + 1001925 1.3465 -10.85675 0.0 0 0 + 1002041 0.4998333 -10.66625 0.0 0 0 + 1002042 0.7115 -10.66625 0.0 0 0 + 1002043 0.9231666 -10.66625 0.0 0 0 + 1002044 1.134833 -10.66625 0.0 0 0 + 1002045 1.3465 -10.66625 0.0 0 0 + 1002161 0.4998333 -10.47575 0.0 0 0 + 1002162 0.7115 -10.47575 0.0 0 0 + 1002163 0.9231666 -10.47575 0.0 0 0 + 1002164 1.134833 -10.47575 0.0 0 0 + 1002165 1.3465 -10.47575 0.0 0 0 + 1002281 0.4998333 -10.28525 0.0 0 0 + 1002282 0.7115 -10.28525 0.0 0 0 + 1002283 0.9231666 -10.28525 0.0 0 0 + 1002284 1.134833 -10.28525 0.0 0 0 + 1002285 1.3465 -10.28525 0.0 0 0 +*ELEMENT_SPH +$# nid pid mass nend + 1001801 101 1.092736e-04 0 + 1001802 101 1.092736e-04 0 + 1001803 101 1.092736e-04 0 + 1001804 101 1.092736e-04 0 + 1001805 101 1.092735e-04 0 + 1001921 101 1.092741e-04 0 + 1001922 101 1.092741e-04 0 + 1001923 101 1.092741e-04 0 + 1001924 101 1.092741e-04 0 + 1001925 101 1.092741e-04 0 + 1002041 101 1.092741e-04 0 + 1002042 101 1.092741e-04 0 + 1002043 101 1.092741e-04 0 + 1002044 101 1.092741e-04 0 + 1002045 101 1.092741e-04 0 + 1002161 101 1.092741e-04 0 + 1002162 101 1.092741e-04 0 + 1002163 101 1.092741e-04 0 + 1002164 101 1.092741e-04 0 + 1002165 101 1.092741e-04 0 + 1002281 101 1.092736e-04 0 + 1002282 101 1.092736e-04 0 + 1002283 101 1.092736e-04 0 + 1002284 101 1.092736e-04 0 + 1002285 101 1.092735e-04 0 +*END diff --git a/test/test_data/sph_models/R12_2_1_Histvar=2/binout b/test/test_data/sph_models/R12_2_1_Histvar=2/binout new file mode 100644 index 0000000..c4ca404 Binary files /dev/null and b/test/test_data/sph_models/R12_2_1_Histvar=2/binout differ diff --git a/test/test_data/sph_models/R12_2_1_Histvar=2/d3hsp b/test/test_data/sph_models/R12_2_1_Histvar=2/d3hsp new file mode 100644 index 0000000..8e343a8 --- /dev/null +++ b/test/test_data/sph_models/R12_2_1_Histvar=2/d3hsp @@ -0,0 +1,3551 @@ + + + *************************************************************** + * ANSYS 2021 R1 LEGAL NOTICES * + *************************************************************** + * * + * Copyright 1971-2021 ANSYS, Inc. All rights reserved. * + * Unauthorized use, distribution or duplication is * + * prohibited. * + * * + * Ansys is a registered trademark of ANSYS, Inc. or its * + * subsidiaries in the United States or other countries. * + * See the ANSYS, Inc. online documentation or the ANSYS, Inc. * + * documentation CD or online help for the complete Legal * + * Notice. * + * * + *************************************************************** + * * + * THIS ANSYS SOFTWARE PRODUCT AND PROGRAM DOCUMENTATION * + * INCLUDE TRADE SECRETS AND CONFIDENTIAL AND PROPRIETARY * + * PRODUCTS OF ANSYS, INC., ITS SUBSIDIARIES, OR LICENSORS. * + * The software products and documentation are furnished by * + * ANSYS, Inc. or its subsidiaries under a software license * + * agreement that contains provisions concerning * + * non-disclosure, copying, length and nature of use, * + * compliance with exporting laws, warranties, disclaimers, * + * limitations of liability, and remedies, and other * + * provisions. The software products and documentation may be * + * used, disclosed, transferred, or copied only in accordance * + * with the terms and conditions of that software license * + * agreement. * + * * + * ANSYS, Inc. is a UL registered * + * ISO 9001:2015 company. * + * * + *************************************************************** + * * + * This product is subject to U.S. laws governing export and * + * re-export. * + * * + * For U.S. Government users, except as specifically granted * + * by the ANSYS, Inc. software license agreement, the use, * + * duplication, or disclosure by the United States Government * + * is subject to restrictions stated in the ANSYS, Inc. * + * software license agreement and FAR 12.212 (for non-DOD * + * licenses). * + * * + *************************************************************** + + Date: 08/31/2025 Time: 16:54:42 + ___________________________________________________ + | | + | LS-DYNA, A Program for Nonlinear Dynamic | + | Analysis of Structures in Three Dimensions | + | Date : 04/05/2023 Time: 00:18:51 | + | Version : smp s R12 | + | Revision: R12.2-86-g831c51f1f6 | + | | + | Features enabled in this version: | + | Shared Memory Parallel | + | FFTW (multi-dimensional FFTW Library) | + | Interactive Graphics | + | ANSYSLIC enabled | + | MADYMO indirect coupling (7.2 or higher) | + | | + | Licensed to: University of Waterloo -- 1081066 | + | Issued by : Pascale.SaneGuttin_08122025 | + | | + | Platform : WINDOWS X64 SSE2 | + | OS Level : Windows 8/10 & Srv 2016/2019/2022 | + | Compiler : Intel Fortran XE 2017 MSVC++ 2017 | + | Hostname : Trauma118 | + | Precision : Single precision (I4R4) | + | | + | Unauthorized use infringes Ansys Inc. copyrights | + |___________________________________________________| + + + Command line options: i=C:\Users\DCHartlen\Documents\Scratchpad\lasso-python\test\test_data\sph_models\R12_2_1_Histvar=2\sph_test.k + ncpu=2 + memory=20m + + Input file: C:\Users\DCHartlen\Documents\Scratchpad\lasso-python\test\test_data\sph_models\R + + The native file format : 32-bit small endian + Memory size from command line: 20000000 + + ******** notice ******** notice ******** notice ******** + * * + * This is the LS-DYNA Finite Element code. * + * * + * Neither LST nor the authors assume any responsibility for * + * the validity, accuracy, or applicability of any results * + * obtained from this system. Users must verify their own * + * results. * + * * + * LST endeavors to make the LS-DYNA code as complete, * + * accurate and easy to use as possible. * + * Suggestions and comments are welcomed. Please report any * + * errors encountered in either the documentation or results * + * immediately to LST through your site focus. * + * * + * Copyright (C) 1990-2021 * + * by Ansys, Inc. * + * All rights reserved * + * * + ******** notice ******** notice ******** notice ******** + + Beginning of keyword reader 08/31/25 16:54:42 + + + ** ****** ********** ******* + ** ******* ********** ******** + ** ** ** *** + ** ******* ** ** + ** ** ** *** + ********* ******** ** ******** + ********* ****** ** ****** + + +** ****** ******* ** ** * ** ***** +** ******* ******** ** ** ** ** ******* +** ** ** *** ** ** *** ** *** *** +** ** ** *** ** ** *** ** *** *** +** ** ** ** ** **** ** ** ** ********* +** ** ** *** ** ** *** ** ** +** ** ** *** ** ** *** ** ** +********* ******* ******* ** ** ** ** ** +********* ******* ****** ** ** * ** ** + + L I S T O F K E Y W O R D C O U N T S + +total # of *AIRBAG_option.......................... 0 +total # of *AIRBAG_INTERACTION..................... 0 +total # of *AIRBAG_PARTICLE........................ 0 +total # of *AIRBAG_REFERENCE_GEOMETRY.............. 0 +total # of *AIRBAG_SHELL_REFERENCE_GEOMETRY........ 0 +total # of *ALE_AMBIENT_HYDROSTATIC................ 0 +total # of *ALE_BURN_SWITCH_MMG.................... 0 +total # of *ALE_COUPLING_NODAL..................... 0 +total # of *ALE_ELEMENT_POROSITY................... 0 +total # of *ALE_FAIL_SWITCH_MMG.................... 0 +total # of *ALE_FRAGMENTATION...................... 0 +total # of *ALE_FSI_SWITCH_MMG..................... 0 +total # of *ALE_INJECTION.......................... 0 +total # of *ALE_MAPPING............................ 0 +total # of *ALE_PRESCRIBED_MOTION.................. 0 +total # of *ALE_REFERENCE_SYSTEM_GROUP............. 0 +total # of *ALE_SWITCH_MMG......................... 0 +total # of *ALE_MESH_INTERFACE..................... 0 +total # of *ALE_STRUCTURED_MESH.................... 0 +total # of *ALE_STRUCTURED_MESH_VOLUME_FILLING..... 0 +total # of *ALE_STRUCTURED_FSI..................... 0 +total # 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Model Size-General + + number of materials or property sets........... 2 + + number of nodal+scalar points.................. 29 + + number of merged nodal points.................. 0 + + number of solid elements....................... 0 + + number of beam elements........................ 0 + + number of shell elements....................... 1 + + number of thick shell elements................. 0 + + number of user defined material subroutines.... 0 + + number of material groups tied to solids....... 0 + + number of tracer particles..................... 0 + + number of super elements....................... 0 + + number of solid tetrahedrons with 10 nodes..... 0 + + number of quadratic shell elements............. 0 + + number of shells with extra degrees of freedom. 0 + + number of solids with extra degrees of freedom. 0 + + number of user defined sections................ 0 + + activate sensor capability (inactive=0)........ 0 + + number of user defined solid element types..... 0 + + number of solid interpolation elements......... 0 + + number of user defined shell element types..... 0 + + number of shell interpolation elements......... 0 + + number of constrained nodes for interpolation.. 0 + + consistent mass matrix for user-def elements... 0 + + number of shell nurbs patches.................. 0 + + number of solid nurbs patches.................. 0 + + number of tree branches........................ 0 + + + CONTROL CARD 2. Model Size-Boundary Conditions + + number of spc nodes............................ 0 + + number of spc coordinates...................... 0 + + number of velocity cards....................... 0 + + number of non-reflecting boundary segments..... 0 + + number of b. c. cards.......................... 0 + + number of b. c. cards with failure............. 0 + + number of box definition for b. c. card........ 0 + + number of nodes/interface for cyclic symmetry.. 0 + + number of rigid bodies with attachment nodes... 0 + + + CONTROL CARD 3. Model Size-Loading + + number of load curves.......................... 0 + + number of nodes for load curve functions....... 0 + + number of curves for entities.................. 0 + + number of concentrated load cards.............. 0 + + number of pressure load cards.................. 0 + + number of expansion pressure load cards........ 0 + + number of nonuniform pressure loads-4 nodes.... 0 + + number of nonuniform pressure loads-6 nodes.... 0 + + number of nonuniform pressure loads-8 nodes.... 0 + + number of generalized body force sets.......... 0 + + number of beam pressure card definitions....... 0 + + number of detonation points.................... 0 + + number of zones for momentum deposition........ 0 + + number of points in density vs. depth curve.... 0 + + number of outflow boundary segments............ 0 + + number of load curve feedback sets............. 0 + + number of pressure load sets with masks........ 0 + + number of spray systems ....................... 0 + + number of initial stress by cross-sections sets 0 + + number of pressure load sets................... 0 + + number of ground motion definitions............ 0 + + number of ground motions specified at nodes.... 0 + + number of ground motions specified at points... 0 + + number of ground motions specified in bin file. 0 + + number of segsets with specified ground motion. 0 + + number of soil-structure interfaces for output. 0 + + number of aero-acoustic load cards............. 0 + + number of delayed curve........................ 0 + + number of pid controller....................... 0 + + + CONTROL CARD 4. Model Size-Constraints and Contact + + number of rigid wall definitions............... 1 + + number of number of contact definitions........ 0 + + number of number of guided cable contacts...... 0 + + number of shell-solid interfaces............... 0 + + number of tie-breaking slide lines............. 0 + + number of blocks of tied nodes with fracture .. 0 + + number of tied nodal pairs for linking......... 0 + + number of constraint cards..................... 0 + + number of linear constraint equations.......... 0 + + number of 1d slidelines........................ 0 + + number of adaptive constraints................. 0 + + number of ALE smoothing constraints............ 0 + + number of 2d slidelines........................ 0 + + number of 2d automatic contacts................ 0 + + number of part IDs for interior contact........ 0 + + number of beam release sets.................... 0 + + max. number of nodes in any beam release set... 0 + + + CONTROL CARD 5. Model Size-Rigid Body Parameters + + number of rigid body constraint sets........... 0 + + number of rigid body merge cards............... 0 + + number of joint constraints.................... 0 + + number of joint failure definitions............ 0 + + number of joint user force definitions......... 0 + + number of extra node blocks.................... 0 + + number of rigid body inertia definitions....... 0 + + number of geometric contact entities........... 0 + + number of joint stiffness definitions.......... 0 + + number of rigid body stoppers.................. 0 + + joint formulation for rigid bodies............. 0 + eq.0: penalty + eq.1: lagrange multiplier + + generalized stiffness angle update ............ 0 + eq.0: incremental formulation + eq.1: total formulation + + number of flexible bodies...................... 0 + lt.0: stress recovery active + + number of relative damping definitions......... 0 + + flag for reading rigid surface contact input... 0 + eq.0: no rigid surface contact + eq.1: read rigid surface input + + number of Hybrid III dummies .................. 0 + + number of Hybrid III joint modifications ...... 0 + + number of interpolation constraints ........... 0 + + flag for metalforming fast rigid bodies........ 0 + eq.0: full rigid body treatment + eq.1: fast rigid body treatment + + number of prescribed rigid body orientations 0 + + + CONTROL CARD 6. Model Size-Discrete Elements & Seat Belts + + number of spring-damper material types......... 0 + + number of local coordinate systems............. 0 + + number of discrete springs and dampers......... 0 + + number of lumped masses........................ 0 + + number of parts with added mass................ 0 + + number of nodes with mass matrix............... 0 + + number of seat belt materials.................. 0 + + number of seat belt elements................... 0 + + number of 2d seat belt elements................ 0 + + number of slip rings........................... 0 + + number of retractors........................... 0 + + number of sensors.............................. 0 + + number of pretensioners........................ 0 + + number of accelerometers....................... 0 + + number of discrete rotary inertias............. 0 + + number of SPH particles........................ 25 + + number of groups of SPH particles.............. 1 + + + CONTROL CARD 7. Model Size-Output Control + + number of cross section definitions............ 0 + + number of nodal groups for resultant forces.... 0 + + number of interface segments for linking....... 0 + + max. number of segments defining rigid wall.... 0 + + number of power spectrum density databases..... 0 + + + CONTROL CARD 8. Computation Options-Termination + + termination time............................... 0.3500E-01 + + termination cycle.............................. 0 + + reduction factor for minimum time step (TSMIN). 0.0000E+00 + + percent change in energy ratio for termination. 0.0000E+00 + + percent change in total mass for termination... 0.0000E+00 + + number of nodes for displacement termination... 0 + + number of rigid bodies for disp. termination... 0 + + number of conditions for contact termination... 0 + + number of conditions for ldcurve termination... 0 + + ID of sensor_switch for sensor termination... 0 + + + CONTROL CARD 8a. Computation Options-Start + + start time..................................... 0.0000E+00 + + + CONTROL CARD 9. Computation Options-Time Step Size + + initial time step size......................... 0.0000E+00 + + time step scale factor......................... 0.9000E+00 + + time step size calculation for 4-node shells... 0 + eq.0: based on longest element side + eq.1: based on longest element diagonal + eq.2: based on bar wave speed max side + eq.3: based on optimal time step size + estimator + + shell element minimum time step assignment..... 0.0000E+00 + + time step size for mass scaled solution, dt2ms. 0.0000E+00 + lt.0: minimum time step size permitted + + load curve number for maximum timestep......... 0 + + erosion/termination flag for element dt < TSMIN 0 + beam elements.............................. not active + shell elements............................. not active + solid and tshell elements.................. not active + + solid element time step calculation option, IHDO 0 + eq.0: default method + eq.1: method to improve time step continuity + + option part set ID for eroding solids.......... 0 + eq.0: all solids and thick shells are checked + if ERODE=1 and TSMIN>0 or if TSMIN<0 + gt.0: solids within part set are checked + + limit mass scaling to the first time step...... 0 + eq.0: no + eq.1: yes + + scale factor on initial dt to determine dt2ms.. 0.0000E+00 + + load curve ID for mass scaling ................ 0 + + flag for selective mass scaling................ 0 + eq.0: off + eq.1: on + eq.2: on for part subset + + consistent constraint logical switch........... F + + flag for part set for erosion ................. 0 + eq.0: no + eq.1: yes + + flag for accounting for rotations in sms....... 0.0000E+00 + eq.0.: off (default) + gt.0.: on + implicit_explicit_hybrid part set.............. 0 + + fraction of added mass contributing to gravity. 0.0000E+00 + + consistent mass scaling (0=off, 1=on).......... 0 + + user defined average nodal rotational mass .... 0.0000E+00 + + + + + CONTROL CARD 10. Computation Options-Loading + + x-ground acceleration.......................... 0 + eq.0: no + eq.1: yes + + y-ground acceleration.......................... 0 + eq.0: no + eq.1: yes + + z-ground acceleration.......................... 0 + eq.0: no + eq.1: yes + + x-angular velocity............................. 0 + eq.0: no + eq.1: yes + + y-angular velocity............................. 0 + eq.0: no + eq.1: yes + + z-angular velocity............................. 0 + eq.0: no + eq.1: yes + + number of materials receiving body forces...... 0 + eq.0: all + eq.n: subset of n materials + + flag for user defined loading subroutine....... 0 + lt.0: magnitude=# of input constants + eq.0: no + eq.1: yes, but no additional input + + explosive initiation option.................... 0 + eq.0: lighting times based on distance + eq.1: lighting times include geometric + effects for wave shapers, etc. + + sub-sea structural analysis option............. 0 + eq.0: off + eq.1: on with 1 point integration + eq.4: on with 4 point integration + contact pressure calculation option............ 0 + eq.0: off (default) + eq.1: on + # of user defined loading set.................. 0 + + + CONTROL CARD 11. Computation Options-Input Control + + initialization of velocities................... 1 + eq.0: velocities are initialized to zero + eq.1: initial velocities are read in + eq.2: all velocities have same input value + eq.3: as 2 but exempted nodes are defined + eq.4: box option + eq.5: generation with arbitrary numbering + eq.6: rotational and translational via IDs + eq.7: option 6 but applied during calculation + + time to apply initial velocites (option 7)..... 0.0000E+00 + + arbitrary node and element numbering flag ..... 1 + + constitute, eqs-of-state, cross-section option. 0 + eq.0: off + eq.1: separate input is required for each + + specified nodal coordinate format.............. e20.0 + + flag for thermodynamic control volume input.... 0 + + overpressure option (eq.0 no, eq.1 yes)....... 0 + + number of part (de) activation sensors......... 0 + + number of rigid body initial velocity sets..... 0 + + jacobian tolerance for type 16 tetrahedron..... 0.0000E+00 + + flag to check for NaN in force/moment arrays... 0 + + maximum LCINT (curve discretization inc.)...... 100 + + load curve accuracy flag....................... 0 + + cycles between evaluation of curve functions... 1 + + + CONTROL CARD 12. Computation Options-Elements + + warped shell angle in deg. for error message... 0.2000E+02 + + iterative plane stress plasticity for shells... 1 + eq.1: vectorized with three iterates + eq.2: nonvectorized iterations as needed + eq.3: noniterative radial return + + Calculation option for F for solid elements.... 0 + eq.0: default, explicit=1, implicit=2 + eq.1: integrate incrementally + eq.2: compute directly + + flag for automatic sorting .................... 0 + eq. 1: on for triangular shells + eq.11: on for triangular shells and solids + eq.10: on for solids (tets and pentas) + + formulation for sorted degenerate tet/pent..... 0 + eq. 0: no sorting required(default) + eq. 1: type 10 tet & type 15 pent + eq. 2: type 10 tet, 1pt pent to type 15 pent, + fully intg pent to type 115 pent + eq. 3: same as 1 & switch elem in messag file + eq. 4: same as 2 & switch elem in messag file + + formulation for sorted trianglar shells ....... 0 + eq. 0: no sorting required(default) + eq. 1: C0 triangle, type 4 + eq. 2: DKT triangle type 17 + + hughes-liu normal computation options.......... -1 + eq.-2: unique nodal fibers + eq.-1: compute normals each cycle + eq.0 : default set to -1 + eq.1 : compute on restart + eq.n : compute on restart + each nth cycle + + consistent tangent for type 13 solid........... 0 + eq.0 : no, recommended for nonlinear implicit + eq.1 : yes, may improve linear response + + choice of type 13 solid implementation......... 0 + eq.0 : efficient version (default) + eq.1 : slower but more accurate version + + rotary inertia for solid nodes, if required ... 0 + eq.0 : global average (default) + eq.1 : element based + + cohesive element quality check ................ 0 + eq.0 : error due to bad quality (default) + eq.1 : only warning + eq.2 : warning and deletion of bad elements + + thickness modification for membrane strains.... 0 + eq.0: no + eq.1: 4-node shell only + eq.2: 8-node thick shell types 1 & 2 + eq.3: update both 4 & 8 node thickness + eq.4: same as option 1 but the elastic + strains are neglected + + shell part set ID (pids) for thickness update. 0 + lt.0: exclude pids if update option is active + eq.0: include all if update option is active + gt.0: include pids if update option is active + + shell part set ID where type 4 update applies 0 + + shell formulation basis........................ 2 + eq. 1: hughes-liu + eq. 2: belytschko-tsay + eq. 3: bciz + eq. 4: c0-triangular element + eq. 5: membrane element + eq. 6: s/r hughes-liu + eq. 7: s/r co-rotational hughes-liu + eq. 8: belytschko-leviathan shell + eq. 9: fully integrated membrane + eq. 10: belytschko-wong-chiang + eq. 11: fast hughes-liu + eq. 12: 2d plane stress + eq. 13: 2d plane strain + eq. 14: 2d axisymmetric (area wgt) + eq. 15: 2d axisymmetric (volume wgt) + eq. 16: fully integrated element + eq. 17: dkt element + eq. 18: dkq-dkt linear element + eq. 20: assumed strain linear element + eq. 21: assumed strain linear element(5DOF) + eq. 22: linear shear panel element(3DOF) + eq. 23: 8-node quadratic quadrilateral shell + eq. 24: 6-node quadratic triangular shell + eq. 25: belytschko-tsay with + thickness stretch + eq. 26: fully integrated element with + thickness stretch + eq. 27: c0-triangular element with + thickness stretch + eq. 29: cohesive element for shell + edge-to-edge connections + eq. -29: cohesive element with midlayer + coordinate system for pure shear + eq. 31: 2-d 1-pt. eulerian n-s + eq. 32: 2-d 4-pt. eulerian n-s + eq. 33: 2-d cvfem eulerian n-s + eq. 41: meshfree shell local projection + eq. 42: meshfree shell global projection + eq. 43: meshfree plane strain + eq. 44: meshfree axisymmetric solid + eq. 46: cohesive element compatible with 2d + plane stress, plane strain, or + area-weighted axisymmetric elements + eq. 47: cohesive element compatible with 2d + volume-weighted axisymmetric elements + eq. 98: interpolation shell element + eq. 99: elastic vibration element + eq. 201: isogeometric nurbs element + ge.1000: user defined (generalized) shell + + # of user specified beam integration rules..... 0 + max number of integration points reqd (beams) . 0 + # of user specified shell integration rules.... 0 + max number of integration points reqd (shells). 0 + warping stiffness for Belytschko-Tsay shells... 2 + eq.1: Belytschko-Wong-Chiang modification + eq.2: original Belytschko-Tsay + + projection method for warping stiffness........ 0 + eq.0: drill + eq.1: full + + reference configuration ....................... 0 + eq. 0: no + eq. 1: yes, active for all airbags + eq. 2: yes, reference geometry Dt + eq.10: yes, active for foam elements + eq.11: options 1 and 10 active + eq.12: options 2 and 10 active + + contact reference configuration ............... 0 + eq. 0: no + eq. n: n number of reference nodes + + invariant node numbering ...................... 0 + eq.-4 on for both shell and solid elements + except triangular shells + eq.-2 on for shell elements except + triangular shells + eq. 1 off (default) + eq. 2 on for all shell elements + eq. 3 on for solid elements with + anisotropic material + eq. 4 on for all shell elements and solid + elements with anisotropic material + + activation time for reference geometry ........ 0.0000E+00 + + scale factor for shell rotary mass ............ 0.1000E+01 + scale factor for shell rotary added mass ...... 0.1000E+01 + + integration for shell through thickness ....... 0 + eq.0: Gauss + eq.1: Lobatto + + use laminated shell theory for material ....... 0 + types 22, 54, 55, and 76: + eq.0: no + eq.1: yes for thin shell material types + 22, 54, 55, or 76 + eq.3: yes for all thin shell anisotropic + materials or mixed materials + eq.4: yes for all thick shell anisotropic + materials or mixed materials + eq.5: yes for thick and thin shells + + number of annealed parts ....................... 0 + + number of new part IDs for COMPOSITE option..... 0 + + flag for shell offset vectors ................. 0 + eq. 0: off + eq. 1: on + + flag to reduce time step for shell offsets .... 0 + eq. 0: reduction depending on offset + eq. 1: no reduction + + flag for offset shell contact surface ......... 0 + eq. 0: off + eq. 1: on + eq. 2: on, but use contact thickness + + number of point constraints between shells .... 0 + + flag for input of beam orientation vectors .... 0 + + flag for input of beam offset vectors ......... 0 + + flag for input of beam warpage scalar nodes.... 0 + + flag for 12-node shell for thermal ............ 0 + + local shell coordinate system in type 6 shell.. 1 + eq. 0: uniform local coordinate system + eq. 1: variable local coordinate system + + Jacobian check on 1 point shells............... 0 + eq. 0: off + eq. 1: on -delete distorted element + eq. 2: on -terminate + eq. n: terminate when n elements are deleted + + Jacobian check on 4 point shells............... 0 + eq. 0: off + eq. 1: on -delete distorted element + eq. 2: on -terminate + eq. n: terminate when n elements are deleted + + part set ID for Jacobian checks................ 0 + + keep contact segment related to failed shell... 0 + eq. 0: off + eq. 1: on + delete free-free shells in Jacobian checks..... 0 + eq. 0: off + eq. 1: on + + part set ID for drill constraint force ........ 0 + scale factor for drill constraint force ....... 0.00000000E+00 + method for drill constraint force ............. 0 + eq. 0: generalized drill strain, node based + eq. 1: spin tensor, element based + + w mode deletion angle in degrees .............. 0.0000E+00 + + stretch ratio deletion (l/l0) ................. 0.0000E+00 + + flag for error exit in case of unwanted + interpolation of inital stresses .............. 0 + + number of shell part IDs for termination...... 0 + eq. 0: inactive + gt. 0: # part IDs where # failed are defined + + number of solid part IDs for termination...... 0 + eq. 0: inactive + gt. 0: # part IDs where # failed are defined + + integration rule for quadratic tetrahedrons.... 4 + eq. 4: 4 point integration formula + eq. 5: 5 point integration formula + + integration rule for quadratic shells.......... 3 + eq. 2: 2x2 integration in plane + eq. 3: 3x3 integration in plane + + stress output for solid element spotwelds...... 0 + eq. 1: global (default) + eq. 2: local + + # of solid elements with death times........... 0 + + # of beam elements with death times........... 0 + + # of shell elements with death times........... 0 + + # of thick shell elements with death times..... 0 + + # of box definitions for element deletion...... 0 + + # of parts to be annealed...................... 0 + + flag for input of elbow extra scalar nodes..... 0 + + flag for material stochastic variations........ 0 + + number of tailor welded blanks ................ 0 + + number of heat affected zone property sets..... 0 + + flag for loading segments with file option..... 0 + + flag for loading segments FSI link file........ 0 + + + number of solid elements with initial stress .. 0 + + number of sph elements with initial stress .. 0 + + number of beam elements with initial stress .. 0 + + number of shell elements with initial stress .. 0 + + number of shell elements with initial strain .. 0 + + number of iga-shell elms with initial stress .. 0 + + number of iga-shell elms with initial strain .. 0 + + number of iga-solid elms with initial stress .. 0 + + number of iga-solid elms with initial strain .. 0 + + maximum number of tensor data ................. 0 + + maximum number of history variables ........... 0 + + no. of thick shell elems with initial stress .. 0 + + number of solid elements with initial strain .. 0 + + number of solid elements with initial dof...... 0 + + number of nodes with initial geometry.......... 0 + + write nodes with initial geometry.............. 0 + = 0: do not write nodes + = 1: write nodes + + number of discrete element spheres............. 0 + + flag for initial transverse shear stresses .... 0 + = 0: keep transverse shear stresses (default) + = 1: set transverse shear stresses to zero + + psid for shells with local initial stresses ... 0 + + number of of thick shells with inital strain... 0 + + cohesive element flag ICOH = [LK] = K+10*L .... 0 + K = 0: do not delete after neighbor failed + K = 1: delete after neighbor failed + L = 0: default time step estimate + L = 1: most conservative (smallest) + time step estimate + L = 2: intermediate time step estimate + + flag for SPR2/SPR3 initial radius of influence 0 + eq.0: silently increased to find enough nodes + eq.1: same as .eq.0 but write warning + eq.2: error termination if too small + flag for SPR3 resultant shear moment 0 + eq.0: distribute as force pairs + eq.1: distribute as nodal moments + + + CONTROL CARD 13. Computation Options-Materials + + hourglass formulation.......................... 0 + eq.0 LS-DYNA versions 940 and after + eq.1 LS-DYNA versions 936 and before + + hourglass models + eq.1: standard viscous form + eq.2: flanagan-belytschko viscous form + 1pt volume integration for solids + eq.3: flanagan-belytschko viscous form + exact volume integration for solids + eq.4: flanagan-belytschko stiffness form + 1pt volume integration for solids + eq.5: flanagan-belytschko stiffness form + exact volume integration for solids + eq.6: bindeman-belytschko stiffness form + for 2d and 3d solid elements only + eq.9: puso stiffness form for 3d solid + elements only + + hourglass model (default)...................... 0 + + hourglass coefficient (default)................ 0.0000E+00 + + bulk viscosity type (default).................. 0 + eq.-2: standard +types 2,4,10,16,17 shells+IE + eq.-1: standard +types 2,4,10,16,17 shells + eq.+1: standard + + quadratic bulk viscosity coefficient........... 0.0000E+00 + + linear bulk viscosity coefficient.............. 0.0000E+00 + + bulk viscosity type for beams.................. 0 + eq.+1: standard + eq.+2: standard + IE + + bulk viscosity for thick shells................ 0 + eq.0: off (default) + gt.0: on (forms 5, 6, and 7) + + using old interpolation scheme for tables...... 0 + eq.0: no (default) + eq.1: yes + + avoid reject in material models for implicit... 0 + eq.0: no (default) + eq.1: yes + flag for rayleigh damping input................ 0 + eq.0: off (default) + eq.1: on + + flag for rigid/deformable material switching... 1 + eq.1: off (default) + eq.2: on + eq.3: on and automatic switching + + thermal effects option......................... 0 + eq.0: no thermal effects + eq.n: nodal temps scaled by load ftn -n- + eq.-1: coupled thermal mechanical analysis + eq.-2: temperature data input option 2 + eq.-3: thermal solution + eq.-4: Read binary temperature file + eq.-5: Read d3plot file + eq.-6: Read LSDA file + eq.-9998: user defined load set temp. input + eq.-9999: temperature data input option 1 + + thermal curve ID used for dynamic relaxation... 0 + + super plastic forming input option............. 0 + eq.0: skip input + eq.1: read superplastic input section + + objective stress update for large Dt........... 0 + eq.0: off (default) + eq.1: on globally + eq.2: on for part subset + + default contact parameters input option........ 0 + eq.0: no + eq.1: yes + + number of reinforcement cards for mat 84&85.... 0 + + output interval for aea_crack database......... 0.0000E+00 + + number of non local materials.................. 0 + + neighbours arrays oversized of (%)............. 0 + + number of parts defined for adaptive failure... 0 + + number of elements with specified temperature.. 0 + + number of parts with spotweld rupture stress... 0 + + number of parts with spotweld rupture parametr. 0 + + number of spotweld lists....................... 0 + + number of rows of opt=10 spot weld failure data 0 + + implicit accuracy option to turn on strong + objectivity in various features (elements, + contacts, constraints, etc..................... 0 + eq.0: no + eq.1: yes + + flag for MAT_ADD_EROSION failure switching .... 0 + eq.0: on (default) + eq.1: off globally + + flag for MAT_USER treatment ................... 0 + eq.0: warning if default umat is used + eq.1: error termination if default umat is used + + + CONTROL CARD 14. Computation Options-Damping + + load curve specifying system damping........... 0 + eq.-1: system damping by material + eq. n: load curve n defines system damping + + optional constant for system damping........... 0.0000E+00 + + system damping scale factor for x-translation.. 0.1000E+01 + + system damping scale factor for y-translation.. 0.1000E+01 + + system damping scale factor for z-translation.. 0.1000E+01 + + system damping scale factor for x-rotation..... 0.1000E+01 + + system damping scale factor for y-rotation..... 0.1000E+01 + + system damping scale factor for z-rotation..... 0.1000E+01 + + stress initialization flag .................... 0 + eq.-1: dynamic relaxation (debug option) + eq.0: off + eq.1: dynamic relaxation + eq.2: deformed geometry + eq.3: dynamic relaxation with part set ID + eq.5: initialize implicitly + eq.-999:off-not activated by load curves + + convergence check interval (dynamic relaxation) 250 + + convergence tolerance for dynamic relaxation... 0.1000E-02 + + dynamic relaxation factor...................... 0.9950E+00 + + termination time for dynamic relaxation........ 0.0000E+00 + eq.0.0: convergence terminates relaxation + gt.0.0: termination at specified time + unless convergence is attained + + scale factor for dyn relax time step........... 0.9000E+00 + + automatic determination of dr factors.......... 0 + eq.0: off (default) + eq.1: on + + convergence tolerance for above option......... 0.0000E+00 + + active part set ID for dynamic relaxation ..... 0 + + + + CONTROL CARD 15. Computation Options-Contact + + scale factor for contact interface penalties... 0.1000E+00 + + scale factor for rigid wall penalties.......... 0.0000E+00 + + flag to activate MADYMO contact coupling....... 0 + eq.0: inactive + eq.1: active + + track initial penetrations in auto contacts.... 0 + eq.0: no, move node to contact surface + eq.1: yes, initial penetrations remain + + ignore initial separations in tied contacts.... 0 + eq.0: no, eliminate gaps most accurate + eq.1: yes, may lock rotations + + contact initial penetration check option....... 1 + eq.1: off (default) + eq.2: on + + thickness considered in type 3, 5 or 10 contact 0 + eq.0: off + eq.1: on, but rigid bodies excluded + eq.2: on, rigid bodies are included + + penalty stiffness option....................... 1 + eq.1: minimum master/slave value + eq.2: master segment stiffness (old way) + eq.3: slave node stiffness + eq.4: slave node area/mass weighted + eq.5: like 4 but k proportional to 1/thick + + thickness changes considered in contact........ 0 + eq.0: no for type 4, 13, and a13 contact + except for segment based contact (SOFT=2), + eq.1: yes + eq.2: no in any segment based conatct (SOFT=2) + + automatic reorientation option................. 1 + eq.1: on for automatic contact definitions + eq.2: on + eq.3: off + + memory allocation-user contact surface control 0 + gt.0: memory per interface passed to user + + memory allocation-user contact surface frict... 0 + gt.0: memory per interface passed to user + + number of time steps between contact searching. 0 + eq.0: LS-DYNA chooses value + + intermittent searching in type 3 contact....... 0 + eq.0: off (default) + eq.1: on + + release factor for extra searching option...... 0.4000E+01 + + treatment of nodes in eroding contact.......... 0 + eq.0: delete from calculation + eq.1: keep nodes of eroded solids + eq.2: keep nodes of eroded solids & shells + + calculation of frictional sliding energy....... 0 + eq.0: do not calculate + eq.1: calculate + + shell thickness in single surface contact...... 0 + eq.0: use characteristic shell dimension + eq.1: use actual shell thickness + + time step size override for eroding contact.... 0 + eq.0: contact time size may control dt + eq.1: contact is not considered for dt + + number of automatic positioning definitions.... 0 + + print slave node/segment in spotweld contact... 0 + eq.0: no + eq.1: yes, in D3HSP file + + option for unconstrained spotweld node/face.... 0 + eq.0: ignore + eq.1: terminate + eq.2: delete weld and continue + + delete spotweld if tied to failed shell........ 0 + eq.0: no + ge.1: yes + + number of friction table definitions........... 0 + + read in friction table for automatic contacts.. 0 + eq.0: no + ne.0: number of part pair defined for table + + include sliding energy density in d3plot....... 0 + eq.0: no + eq.1: yes + + read in spotweld failure table................. 0 + eq.0: no + ne.0: number of part pair defined for table + + contact thickness scaling option for welds..... 0.0000E+00 + eq.0.0: inactive + gt.0.0: scale factor on thickness + + beam spotweld radius scale factor for thinning. 0.0000E+00 + eq.0.0: inactive + gt.0.0: scale factor on radius + + read in smooth contact flags................... 0 + eq.0: no + eq.1: yes + Warning: in Shared Memory Program smooth option only + available for Forming type contact + + flag for eliminating faces on symmetry planes.. 0 + eq.0: use all faces + eq.1: delete faces from contact + + spotweld tension scaling load curve............ 0 + spotweld compression scaling load curve........ 0 + spotweld direction scaling table.(tension)..... 0 + spotweld direction scaling table (shear) ..... 0 + eq.0: table for tension scaling is used + spotweld print flag (on=1)..................... 0 + + number of contact volume definitions........... 0 + + flag to use one way node to surface erosion.... 0 + + flag for implicit rigidwall gap stiffness...... 1 + + eq.1: add initial gap stiffness + eq.2: do not add gap stiffness + + death time for gap stiffness................... 0.0000E+00 + + penalty scale factor for rigid walls........... 0.1000E+01 + + flag for covariant contact formulation......... 0 + + eq.0: covariant formulation not used + eq.1: covariant formulation used + + flag for offsetting thick thermal contact + surfaces in the thermal contacts............... 0 + + eq.0: no offset, if thickness is not included + contact will act on shell mid-surface + eq.1: offsets are applied so that contact + always act on the shell outer surfaces + + flag for shell segment edge shape.............. 0 + eq.0: shell edges assumed round (default) + eq.1: shell edges assumed square + + segment based contact PSTIFF option............ 0 + eq.0: use the material density (default) + eq.1: use nodal masses + + flag for consistent thermal contact algorithm.. 1 + lt.0: conduction evenly distributed (pre-R4) + eq.1: conduction weighted by shape functions, + reduced integration (default) + eq.2: conduction weighted by shape functions, + full integration + + flag for optional tied interface update ....... 0 + eq.0: integrate accelerations for v and u + eq.1: differentiate u to obtain v and a + + flag for overlapping force transducers......... 0 + eq.0: forces applied to first found (faster) + eq.1: forces applied to all transducers + + scale factor for contact interface mass scaling 0.0000E+00 + shell thickness scale factor for rigidwall .... 0.0000E+00 + flag of contact involving isogeometric ele .... 0 + eq.0: interp. node vs. interp. facet + eq.1: interp. node vs. isogeometric element + print out penetration info for mortar contact.. 0 + scale factor for contact pressure on thickness + shells......................................... 0.1000E+01 + convert spc on mat_rigid and + constrained_nodal_rigid_body to bpm for + output to bndout............................... 0 + eq.0: do not convert + eq.1: convert + output contact penetrations to d3plot + and sleout..................................... 0 + eq.0: no output + ge.1: output absolute penetrations + ge.2: output relative penetrations + + revert spotweld thinning behavior to R9.3.1 ... 0 + eq.0 default: thinning at shared nodes + eq.1 no thinning at shared nodes + + + CONTROL CARD 16. Computation Options-Parallel + + number of cpus for parallel computations....... 2 + + parallel right hand side assembly.............. 0 + eq.0: on (default) + eq.1: off + + flag for automatic subcycling.................. 0 + eq.0: off (default) + eq.1: on + + number of part IDs for mass scaled subcycling.. 0 + + flag for repeatability in parallel solution.... 2 + eq.1: on (ordered RHS summation-slower) + eq.2: off (default) + + use memory to parallelize repeatability option. 0 + eq.0: off + eq.1: on + maximum time step factor for subcycling........ 0 + + + CONTROL CARD 17. Computation Options-Coupling + + length conversion factor coupling.............. 0.1000E+01 + + time conversion factor coupling................ 0.1000E+01 + + force conversion factor coupling............... 0.1000E+01 + + material repositioning flag.................... 0 + eq.0: off + eq.1: input data defines repositioning + eq.2: no repositioning of defined nodes + + Flag to flip X-coordinates..................... 0 + + Flag to flip Y-coordinates..................... 0 + + Flag to flip Z-coordinates..................... 0 + + Idle time for LS-DYNA.......................... 0.0000E+00 + + Implicit coupling for springback............... 0 + eq.0: off (default) + eq.1: on + eq.2: seamless springback + + DYNAIN output format........................... 0 + eq. 0: ascii + eq. 1: binary + eq. 2: ascii and binary + eq.10: ascii (large) + eq.11: binary (large internal ASCII) + eq.12: ascii and binary (large) + + Mismatched acoustic coupling input flag........ 0 + eq.0: off + eq.1: on + + Two sided acoustic coupling input flag......... 0 + eq.0: off + eq.1: on + + Coupling with USA.............................. 0 + eq.0: off (default) + eq.1: on + + Number of steps for CAL3D/MADYMO3D subcycling.. 1 + + Number of MCOL coupled rigid bodies............ 0 + + Number of vehicles to be initialized........... 0 + + Coupling with CFD.............................. 0 + eq.0: off (default) + eq.1: FAST3D + eq.2: boundary element method + + + CONTROL CARD 18. Computation Options-Output Control + + printout of node, element, velocity input data. 0 + eq.0: on + eq.1: off + + time zero printout of element time step size... 0 + eq.0: no printout + eq.1: print dt for each element at t=0 + + problem status report interval in printer file. 100 + + number of cycles between restart dumps.........99999999 + + number of cycles between running restart dumps.99999999 + + number of files to rewrite running restart .... 1 + + printout of force types to bndout file......... + eq.0: on + eq.1: off + nodal force groups................. 0 + concentrated nodal forces.......... 0 + pressure boundary conditions....... 0 + disp/vel/acc nodal BC.............. 0 + + + node and element printout suppression.......... 0 + eq.1: nodal data is not echoed + eq.2: element data is not echoed + eq.3: node and element data is not echoed + + debug information in messag file option........ 0 + eq.0: no + eq.1: yes + + update of beam reference nodes................. 0 + eq.0: off + eq.1: on-unique reference nodes required + + averaged acceleration-print/time history files. 0 + eq.0: no average (default) + eq.1: averaged between output intervals + eq.2: user defined filtering + + output interval for interface file............. 0.4000E-03 + + default print flag for the RBDOUT/MATSUM files 0 + eq.0: RBDOUT and MATSUM + eq.1: RBDOUT only + eq.2: MATSUM only + eq.3: no output + + include eroded and lumped mass in MATSUM ...... 0 + eq.0: no + eq.1: yes + + include 10-node connectivities in D3PLOT ...... 2 + eq.1: yes + eq.2: no + + write spring forward database at termination... 0 + eq.0: no + eq.1: include all deformable nodes + eq.2: include nodes of material subset + + d3plot and d3thdt binary output format......... 0 + eq.0 default + eq.1 32ieee + + flush output file interval..................... 5000 + + output interval for d3part database............ 0.0000E+00 + + interval via load curve for part database...... 0 + + number of part blocks.......................... 0 + + Maximum number of messages..................... 0 + + Print flag for digitized curve data............ 0 + + Print info. of 1d belt created for 2d belt..... 0 + + ELOUT shell output coordinate system flag...... 0 + + eq.0 default + eq.1 local element coordinate system + eq.2 global coordinate sytstem + number of parts removed from d3plot ........... 0 + + number of levels of timing at termination ..... 2 + + max frequency of element failure summaries..... 1 + + shell element stress extrapolation............. 0 + + eq.0 default: no extrapolation + eq.1 extrapolate stress for linear materials only + + solid element stress extrapolation............. 0 + + eq.0 default: no extrapolation + eq.1 extrapolate stress for linear materials only + eq.2 extrapolate stress if plastic strain is zero + eq.3 extrapolate stress always + eq.4 extrapolate all history variables + + phase change output control.................... 0 + eq.0 default: no messag + + eq.1 write out element ID at time of phase change + DEM density output control..................... 0 + eq.0 default: no messag + eq.1 write out density data + + quadratic solid element output................. 0 + eq.0: default to lower order output only + eq.1: write out connectivies for geometry + no extra integration data written + eq.2: write out connectivies for geometry + + extra integration points + + cubic solid element output..................... 0 + eq.0: default to lower order output only + eq.1: write out connectivies for geometry + no extra integration data written + eq.2: write out connectivies for geometry + + extra integration points + + names of history variables listed per part..... 0 + eq.0: no + eq.1: in d3hsp + eq.2: in d3hsp and in file hisnames.xml + + results output for deleted elements ........... 0 + eq.0 default: off + eq.1 on + + + + CONTROL CARD 19. Computation Options-Output Energy + + hourglass energy calculation................... 2 + eq.1: off (default) + eq.2: on + + rigid wall energy calculations................. 2 + eq.1: off (default) + eq.2: on + + contact energy calculation..................... 2 + eq.1: off + eq.2: on + + flag for rayleigh damping energy calculations.. 0 + eq.1: off (default) + eq.2: on + + flag for reference geometry energy calculations 2 + eq.1: off + eq.2: on (default) + + material energy details ....................... 1 + eq.1: off (default) + eq.2: on + + flag for material energy in D3THDT file........ 2 + eq.1: off + eq.2: on (default) + + + CONTROL CARD 20. Computation Options-LS-POST Database + + time step between dumps of complete state data. 0.4000E-02 + + output interval for interface force database... 0.4000E-02 + + time step between dumps of time history data... 0.0000E+00 + + number of nodal printout blocks................ 0 + + number of solid element printout blocks........ 0 + + number of beam element printout blocks......... 0 + + number of discrete element printout blocks..... 0 + + number of seatbelt element printout blocks..... 0 + + number of shell element printout blocks........ 0 + + number of thick shell element printout blocks.. 0 + + load curve-interval between state data dumps... 0 + + behavior of state data dump curve.............. 1 + eq.1: load curve value added to current time + eq.2: plot time T=current t+curve at T + eq.3: plot at each ordinate point + + load curve-interval between force data dumps... 0 + + load curve-interval between history data dumps. 0 + + flag, user output into shell resultant vector.. 0 + eq.1: off (default) + eq.2: on, user subroutine is called + + number of subsystems for SSSTAT file .......... 0 + + behavior of intfor data curve.................. 1 + eq.1: load curve value added to current time + eq.2: plot time T=current t+curve at T + eq.3: plot at each ordinate point + + + CONTROL CARD 21. Computation Options LS-POST Database + + flag to write ls-post database during dyn rel.. 0 + eq.0: no database write (default) + eq.1: write database at convergence check + eq.n: write database at nth check + + number of extra history variables for solids... 2 + + number of integration points output/solid ..... 1 + + number of extra history var/int.pt for shells.. 0 + + number of integration points output/shell ..... 3 + lt.0: also output 4 points in plane + + flag for including strain tensor in database... 0 + STRFLG[NML] = L + M*10 + N*100 + eq.0: exclude (default) + L.eq.1: Write strain tensor data to d3plot & elout + M.EQ.1: Write plastic strain data to d3plot + N.EQ.1: Write thermal strain data to d3plot + + flag for including stress tensor in database... 1 + eq.1: include (default) + eq.2: exclude for shells, include for solids + eq.3: exclude for shells and solids + + flag for including effective plastic strain.... 1 + eq.1: include (default) + eq.2: exclude for shells, include for solids + eq.3: exclude for shells and solids + + flag for including shell resultants............ 1 + eq.1: include (default) + eq.2: exclude + + flag for including shell energy and thickness.. 1 + eq.1: include (default) + eq.2: exclude + + every state is written to a separate file...... 0 + eq.0: off (default) + eq.1: only one state per plotfile + + composite material stress output .............. 0 + eq.-1: same as 1, but fiber stress and strain + are engineering measured in material + 34 + eq. 0: global + eq. 1: local + eq. 2: local, additional information + output in place of shell resultants + + number of integration points output/beam ...... 0 + + data compression to eliminate rigid body data.. 1 + nodal velocities, and nodal accelerations + eq.1: off + eq.2: on -rigid bodies + eq.3: off-rigid bodies-on nodal data + eq.4: on -rigid bodies-on nodal data + + output shell element hourglass energy.......... 1 + eq.1: off + eq.2: on + + output shell element dt, mass, added mass...... 1 + eq.1: off + eq.2: output dt + eq.3: output mass + + peak pressure flag............................. 0 + eq.1: on + + filter parameter............................... 0.0000E+00 + + flag for solid element additional output....... 0 + eq.1: output 3 additional variables + eq.2: output 5 additional variables + eq.4: output 7 additional variables + + flag for scaled mass output to the d3plot file. 0 + eq.1: output mass increment + eq.2: output percentage increase + + flag for thermal data.......................... 1 + eq.0 or 1: output temperature + eq.2: output temperature and flux + eq.3: output temp, flux, and thick shell temps + + flag for including stress tensor at int. point 0 + eq.0: exclude (default) + eq.1: include stress (solid and shells) + + flag for including stress tensor at nodes ..... 0 + eq.0: exclude (default) + eq.1: include local stress (solid and shell) + eq.2: include global stress (solid and shell) + + flag for including strain tensor at int. point 0 + eq.0: exclude (default) + eq.1: include strains (solid and shells) + + flag for including strain tensor at nodes ..... 0 + eq.0: exclude (default) + eq.1: include local strain (solid and shell) + eq.2: include global strain (solid and shell) + output interval for blast force database....... 0.0000E+00 + lt.0: interval specified by load curve + + + CONTROL CARD 22. Computation Options-ASCII Output I + + output interval for cross section forces....... 0.0000E+00 + output interval for rigid wall forces ......... 0.4000E-03 + output interval for nodal print blocks......... 0.0000E+00 + output interval for element print blocks....... 0.0000E+00 + output interval for global statistics ......... 0.4000E-03 + output interval for subsystem statistics ...... 0.0000E+00 + output interval for discrete elements.......... 0.0000E+00 + output interval for material summaries......... 0.4000E-03 + output interval for nodal interface forces..... 0.0000E+00 + output mass properties in subsystem statistics. 0 + output mass properties in global statistics.... 0 + additional history variables output-solids..... 0 + additional history variables output-shells..... 0 + additional history variables output-tshells.... 0 + additional history variables output-beams...... 0 + + + + CONTROL CARD 23. Computation Options-ASCII Output II + + output interval for resultant interface forces. 0.4000E-03 + output interval for smug nodal data............ 0.0000E+00 + output interval for sp constraint forces....... 0.0000E+00 + output interval for nodal constraint forces.... 0.0000E+00 + output interval for airbag statistics.......... 0.0000E+00 + output interval for avs filter................. 0.0000E+00 + output interval for nodal force groups......... 0.0000E+00 + output interval for b.c. forces and energy .... 0.0000E+00 + + + + CONTROL CARD 24. Computation Options-ASCII Output III + + output interval for rigid body data............ 0.0000E+00 + output interval for geometric contact entities. 0.0000E+00 + output interval for mpgs database............. 0.0000E+00 + output interval for movie database............. 0.0000E+00 + output interval for interface energies......... 0.4000E-03 + output interval for seatbelt response.......... 0.0000E+00 + output interval for joint forces............... 0.0000E+00 + output interval for tracer particles........... 0.0000E+00 + output interval for discrete beam data......... 0.0000E+00 + output type for discrete beam data ............ 0 + curve id for discrete beam data ............... 0 + option for ascii output time for discrete beam. 0 + + output interval for pulley element data........ 0.0000E+00 + output type for pulley element data ........... 0 + curve id for pulley element data .............. 0 + option for ascii output time for pulley element 0 + + output interval for bearing element data........ 0.0000E+00 + output type for bearing element data ........... 1 + curve id for bearing element data .............. 0 + option for ascii output time for bearing ....... 0 + + output interval for des mass flow data.......... 0.0000E+00 + output type for des mass flow data ............. 1 + curve id for des mass flow data ................ 0 + option for ascii output time for des mass flow.. 0 + + output interval for curvout .................... 0.0000E+00 + output type for curvout ........................ 1 + curve id for curvout ........................... 0 + option for ascii output time for curvout ....... 0 + + output interval for SPH mass flow data.......... 0.0000E+00 + output type for SPH mass flow data ............. 1 + curve id for SPH mass flow data ................ 0 + option for ascii output time for SPH mass flow.. 0 + + + + CONTROL CARD 25. CONTROL_ALE 1st card + + Default continuum treatment.................... 0 + eq.-1: Improved Advection + ne.-1: Default advection (Legacy) + Number of cycles between rezones............... 0 + + Advection formulation.......................... 0 + eq.1: Donor Cell + HIS + eq.2: Van Leer + HIS (default) + + Relaxation factor 1 (simple average)........... -0.1000E+01 + + Relaxation factor 2 (volume weighting)......... 0.0000E+00 + + Relaxation factor 3 (isoparametric)............ 0.0000E+00 + + Relaxation factor 4 (equipotential)............ 0.0000E+00 + + Relaxation factor 5 (equilibrium).............. 0.0000E+00 + + + CONTROL CARD 26. CONTROL_ALE 2nd card + + time to begin rezoning......................... 0.0000E+00 + + time to end rezoning........................... 0.0000E+00 + + SALE advection factor.......................... 0.0000E+00 + + Void factor.................................... 0.1000E-05 + + Pressure equilibrium........................... 0 + eq.0: Off + eq.1: On + + Automatic euler boundary condition flag........ 0.0000E+00 + eq.0: Off. + eq.1: On with stick condition. + eq.2: On with slip condition. + + Reference pressure............................. 0.0000E+00 + + Node set excluded from EBC (see NSIDEBC)....... 0 + + + CONTROL CARD 26. CONTROL_ALE 3rd card + + Number of cycles between ALE coupling.......... 1 + + Number of cycles between ALE bucket sort....... 50 + + A flag to control mass scaling for ALE parts... 0 + + A flag to control pressure locking pattern..... 0.0000E+00 + + BEAMIN flag.................................... 0 + + Reference pressure by ALE group..see load curve 0 + + Max. pressure difference to cancel nodal forces 0.0000E+00 + + Dynamic viscous time step factor (DTMU)........ 0.0000E+00 + + + CONTROL CARD 26. CONTROL_ALE 4th card + + Flag to optimize the coupling MPP.............. 0 + + Flag to include ALE in the dynamic relaxation.. 0 + + Number of ALE groups allowed to flow in.......: 0 + ALE group: + + + CONTROL CARD 26. Other ALE parameters + + Number of multi-material Euler groups.......... 0 + + number of void materials....................... 0 + + Number of non-interacting Euler materials...... 0 + + Number of parts considered in ALE convection... 0 + + Number of ALE Multi-material group switching... 0 + + Number of ALE mixing length.................... 0 + + Number of ALE coupling to nodes ............... 0 + + Number of ALE essential boundaries ............ 0 + + Number of ALE tracer particles ................ 0 + + Output interval for euler statistics........... 0.0000E+00 + + + CPM output format.............................. 11 + eq.11: Version 3 (full output) + eq.21: Version 4 (full output) + eq.22: (coordinates) + eq.23: (summary) + # of CPM airbag interaction.................... 0 + + # of cycle for CPM repartition................. 5 + CPM time step control.......................... 0 + eq.0: no control + eq.1: set CPM timestep size as 1 usec + CPM check bag and chamber connectivity......... 0 + eq.0: no + eq.1: yes (error termination if detected) + CPM blockage option............................ 0 + eq.0: no + eq.1: yes + Scale factor of force decay constant........... 0.1000E+01 + Adjust energy due to rigid body motion......... 0 + eq.0: no (default) + eq.1: yes + Energy transfer between P2P.................... 0 + eq.0: Default + eq.1: Algorithm 1 + + + + PG output format............................... 11 + eq.11: Version 3 (full output) + eq.21: Version 4 (full output) + eq.22: (coordinates) + eq.23: (summary) + # of PG airbag interaction..................... 0 + + # of cycle for PG repartition.................. 5 + PG time step control........................... 0 + eq.0: no control + eq.1: set PG timestep size as 1 usec + + + CONTROL CARD 37. SPH 1st card + + Sort frequency................................. 1 + + Box activation................................. 0 + + First option................................... 0.1000E+11 + + Space dimension................................ 2 + + Memory allocation for neighbors MEMORY......... 150 + allocation type:........................ DYNAMIC + + Particle approximation......................... 0 + eq.0: Standard gather form (Lacome-Vila 1998) + eq.1: Renormalization (Ben Moussa-Vila 1998) + eq.2: Symmetric formulation (Benz 1989) + eq.3: Symmetric renormalization (Libersky 1993) + eq.4: Elliptic smoothing length + eq.5: Fluid formulation + eq.6: Renormalized fluid formulation + eq.7: Total Lagrangian formulation + eq.8: Renormalized Total Lagrangian formulation + + Start time of SPH analysis..................... 0.0000E+00 + + Maximum velocity............................... 0.1000E+16 + + Contact definition between SPH parts........... 0 + eq.0: Approximation is computed + eq.1: Approximation is not computed + + Time derivative for smoothing length........... 0 + Initial smooth length computation option....... 0 + Display options for SPH particles.............. 0 + Erosion control option for SPH particles....... 0 + Contact treatment for deactivated particles.... 0 + eq.0: Contact remains active + eq.1: Contact becomes inactive + + Artificial viscosity for SPH particles......... 0 + eq.0: Monaghan type bulk viscosity (change + to bulk coefficents recommended) + eq.1: Solid elements type bulk viscosity + Thickness option for contact................... 0 + Total MLS stabilization flag................... 0 + SPH Pressure smoothing parameter............... 1 + + + + CONTROL CARD 38. SPH group number............. 1 + + Number of particles............................ 25 + + Number of material............................. 101 + + Smoothing length constant...................... 0.1300E+01 + + Minimum smoothing length ...................... 0.2000E+00 + + Maximum smoothing length ...................... 0.2000E+01 + + Initial smoothing length ...................... 0.0000E+00 + eq.0: calculated by LS-DYNA + + Death time for SPH material.................... 0.1000E+21 + + Start time for SPH material.................... 0.0000E+00 + + + + + CONTROL CARD 50. EFG + + ispline ....................................... 0 + + idila.......................................... 0 + + inint.......................................... 0 + + iefgs.......................................... 0 + + intfs.......................................... 0 + + + + p a r t d e f i n i t i o n s + + material type + eq.1 isotropic + eq.2 orthotropic + eq.3 elastoplastic ( von mises ) + eq.4 thermo-elastic-plastic + eq.5 soil and crushable foam model + eq.6 viscoelastic model + eq.7 blatz-ko finite elastic rubber + eq.8 high explosive model + eq.9 null material + eq.10 hydrodynamic - elastic-plastic + eq.11 steinberg - guinan model + eq.12 isotropic elastic-plastic + eq.13 elastic-plastic with failure + eq.14 crushable foam with failure + eq.15 johnson/cook plasticity model + eq.16 pseudo tensor geological model + eq.17 elastoplastic with fracture + eq.18 power law isotropic plasticity + eq.19 strainrate sensitive plasticity + eq.20 rigid material + eq.21 thermal orthotropic(12 constants) + eq.22 composite material damage model + eq.23 thermal orthotropic(12 curves) + eq.24 piecewise linear plasticity + eq.25 soil cap model by taylor + eq.26 crushable metallic honeycomb + eq.27 hyperelastic mooney-rivlin + eq.28 shell/beam resultant plasticity + eq.29 beam resultant force limited + eq.30 shape-memory alloy + eq.31 frazer-nash rubber model + eq.32 safety glass + eq.33 barlat's anisotropic plasticity + eq.34 fabric + eq.35 elastoplastic (green-naghdi rate) + eq.36 barlat's 3-parameter plasticity + eq.36E extended barlat plasticity + eq.37 anisotropic plasticity model + eq.38 blatz-ko finite elastic foam + eq.39 fld anisotropic plasticity + eq.40 nonlinear orthotropic elastic + eq.41-50 user material models + eq.51 bammann plasticity model + eq.52 sandia damage model + eq.53 crushable cellular foam + eq.54 composite damage model(hashin) + eq.55 composite damage model(tsai-wu) + eq.57 low density urethane foam + eq.58 laminated composite fabric + eq.59 composite failure + eq.60 viscous glass model model + eq.61 maxwell/kelvin viscoelastic + eq.62 viscous foam model + eq.63 crushable foam model + eq.64 rate sensitive powerlaw plasticity + eq.65 modified armstrong-zerrilli model + eq.66 elastic resultant beams + eq.67 nonlinear elastic via load curves + eq.68 plastic resultant via load curves + eq.69 sid impact dummy damper + eq.70 hydraulic/gas damper + eq.71 cable + eq.72 k & c concrete damage + eq.73 low density viscous foam + eq.74 elastic spring discrete beam + eq.75 bilkhu/dubois crushable foam + eq.76 linear viscoelastic + eq.77 general hyperelastic/ogden + eq.78 soil/concrete + eq.79 hysteretic soil + eq.80 ramberg-osgood + eq.81 plastic damage model + eq.82 plastic orthotropic damage model + eq.83 fu-chang rate sensitive foam model + eq.84 reinforced concrete (aea winfrith, 1990) + eq.86 orthotropic viscoelastic + eq.87 cellular viscoelastic rubber + eq.88 material threshold stress (mts) + eq.89 plasticity polymer + eq.90 acoustic media + eq.91 hyperelastic soft tissue + eq.92 visco-hyperelastic soft tissue + eq.93 elastic 6-dof spring + eq.94 inelastic spring discrete beam + eq.95 inelastic 6-dof spring + eq.96 brittle damage + eq.97 general joint discrete beam + eq.98 simplified johnson cook + eq.99 simplified johnson cook with damage + eq.100 spotweld material + eq.101 ge rate sensitive plasticity + eq.102 inverse hyperbolic sine + eq.103 viscoplastic model (ntnu, 1996) + eq.104 damage model 1 (ntnu, 1997) + eq.105 damage model 2 (ntnu, 1997) + eq.106 elastic viscoplastic thermal + eq.107 modified johnson cook + eq.108 orthotropic elastic plastic + eq.110 johnson/holmquist ceramics + eq.111 johnson/holmquist concrete + eq.112 finite elastic strain plasticity + eq.113 trip for austenitic stainless + eq.114 layered piecewise linear plasticity + eq.115 unified creep + eq.116 composite lay up + eq.117 composite matrix + eq.118 composite direct + eq.119 general nonlinear 6dof discrete beam + eq.120 gurson + eq.121 general nonlinear 1dof discrete beam + eq.122 hill 3r + eq.123 modified piecewise linear plasticity + eq.124 compression-tension plasticity + eq.125 yoshida kinematic plasticity model + eq.126 crushable metallic honeycomb + eq.127 arruda-boyce hyper-viscoelastic + eq.128 heart tissue + eq.129 lung hyper-viscoelastic + eq.130 special orthotropic + eq.131 tno isotropic smeared crack model + eq.132 tno orthotropic smeared crack model + eq.133 barlat yld2000 + eq.135 wtm/stm + eq.136 orthotropic vegter model + eq.137 anisotropic ito-goya model + eq.139 modified resultant beam force limited + eq.140 vacuum + eq.141 rate sensitive polymer + eq.142 transversly isotropic crushable foam + eq.143 aptek orthotropic wood + eq.144 pitzer crushable foam + eq.145 continuous surface cap with damage + eq.146 1dof generalized spring + eq.147 fhwa soil + eq.148 gas mixture + eq.150 cfd - constant properties + eq.152 hyperbolic tangent thermal + eq.153 damage model 3 + eq.154 deshpande fleck foam model + eq.155 compression-tension eos model + eq.156 muscle model + eq.157 anisotropic elastic plastic + eq.158 rate sensitive composite fabric + eq.159 continuous surface cap + eq.161 composite msc + eq.162 composite dmg msc + eq.163 modified crushable foam + eq.164 brain linear viscoelastic + eq.165 plastic nonlinear kinematic + eq.166 moment curvature beam + eq.167 mccormick + eq.168 polymer + eq.169 arup adhesive + eq.170 resultant anisotropic + eq.171 steel concentric brace + eq.172 concrete ec2 + eq.173 mohr couloumb + eq.174 rc beam + eq.176 quasilinear viscoelastic + eq.177 hill foam + eq.178 viscoelastic hill foam + eq.179 low density synthetic foam + eq.180 low density synthetic foam ortho + eq.181 simplified rubber model + eq.182 viscoelastic plastic model + eq.187 semi-analytical model for polymers + eq.188 thermo elastic viscoplastic creep + eq.189 anisotropic thermo elastic + eq.190 barlat 3-parameter fld plasticity + eq.191 seismic beam + eq.192 soil brick + eq.193 drucker prager + eq.194 rc shear wall + eq.195 concrete beam + eq.196 general spring discrete beam + eq.197 seismic isolator + eq.198 jointed rock + eq.199 barlat yld2004 + eq.202 steel EC3 + eq.203 hysteretic reinforcement + eq.205 discrete beam surface contact + eq.206 Park Ang beam + eq.208 bolt beam + eq.213 composite tab. plast. damage v1.3.4 + eq.214 dry fabric + eq.215 4A micromec + eq.219 codam2 + eq.220 rigid material discrete particles + eq.221 orthotropic simplified damage + eq.222 genoa material for laminates + eq.223 orthotropic advanced damage + eq.224 tabulated johnson cook + eq.225 viscoplastic mixed hardening + eq.230 elastic pml + eq.231 acoustic pml + eq.232 biot hysteretic + eq.233 cazacu barlat + eq.234 viscoelastic loose fabric + eq.235 micromechanics dry fabric + eq.236 silicon carbid coating on RCC + eq.237 hysteretic pml + eq.242 barlat yld2000 Yoshida hardening + eq.243 hill 90 + eq.244 ultra high strength steel + eq.248 press hardening steel bmw model + eq.249 reinforced thermoplastic + eq.250 aedm (working name) + eq.251 tailored properties + eq.252 toughened adhesive polymer + eq.255 piecewise linear plastic thermal + eq.256 amorphous solids finite stain + eq.258 non quadratic with failure + eq.260 Stoughton non-associated flow + eq.261 laminated fracture daimler pinho + eq.262 laminated fracture daimler camanho + eq.263 Lou-Yoon + eq.264 tabulated johnson cook ortho plastic + eq.265 constrained spr + eq.266 tissue dispersed + eq.267 eight chain rubber + eq.269 bergstrom-boyce rubber model + eq.270 computational welding mechanics model + eq.271 powder compaction model + eq.272 RHT concrete + eq.273 CDPM concrete + eq.274 paper + eq.275 smooth viscoelastic viscoplastic + eq.279 cohesive paper + eq.291 energy based shape memory alloy + eq.295 anisotropic hyperelastic + equation-of-state types + eq.1 linear polynomial + eq.2 jwl high explosive + eq.3 sack tuesday high explosive + eq.4 gruneisen + eq.5 ratio of polynomials + eq.6 linear polynomial with source + eq.7 initiation and reaction in he + eq.8 compaction + eq.9 tabulated + eq.11 tensor pore collapse + eq.14 jwlb high explosive + eq.15 one-dimensional gasket + eq.16 mie-gruneisen with p-alpha + hourglass models + eq.1 viscous + eq.2 flanagan-belytschko viscous form + eq.3 full flanagan-belytschko viscous form + (constant stress solid elements) + eq.4 flanagan-belytschko stiffness form + eq.5 full flanagan-belytschko stiffness form + eq.6 bindeman-belytschko stiffness form + (solid 2d and 3d elements) + eq.7 linear total strain stiffness form + (solid 2d and 3d elements) + eq.9 puso stiffness form (solid 3d elements) + eq.10 cosserat total strain stiffness form + (solid 3d elements) + bulk viscosity models + eq.1 standard + defaults + hourglass model....................... 2 + hourglass coefficient................. 1.00000E-01 + bulk viscosity type................... 1 + quadratic bulk viscosity coefficient.. 1.50000E+00 + linear bulk viscosity coefficient..... 6.00000E-02 + + *********************************************************************** + + + + + part id ..................... 101 + section id ..................... 101 + material id ..................... 1 + section title .................. + + material title .................. + + material type .............. 3 + equation-of-state type ..... 0 + hourglass type ............. 2 + bulk viscosity type ........ 1 + density .......................... = 2.71000E-03 + hourglass coefficient ............ = 1.00000E-01 + quadratic bulk viscosity ......... = 1.50000E+00 + linear bulk viscosity ............ = 6.00000E-02 + element type ..................... = 4 + eq.0: 4, 6, 8, 10-node solid element + eq.1: 2-node beam or truss or 2D shell element + eq.2: 3, 4-node membrane/shell or 2D continuum element + eq.3: 8-node thick shell element + eq.4: SPH element + flag for bulk viscosity in shells. = 0 + flag for rbdout/matsum output ... = 0 + eq.0: rbdout and matsum + eq.1: rbdout only + eq.2: matsum only + eq.3: no output + static coefficient of friction ... = 0.00000E+00 + kinetic coefficient of friction... = 0.00000E+00 + exponential decay coefficient .... = 0.00000E+00 + viscous friction coefficient ..... = 0.00000E+00 + optional contact thickness ....... = 0.00000E+00 + optional thickness scale factor... = 0.00000E+00 + local penalty scale factor........ = 0.00000E+00 + optional beam to beam cparm8...... = 0 + flag for adaptive remeshing ...... = 0 + eq.0: inactive + eq.1: h-adaptive only + eq.2: r-adaptive only + relative offset of cohesive + reference surface .................= 0.00000E+00 + gasket element thickness ..........= 0.00000E+00 + rayleigh damping coefficient...... = 0.00000E+00 + e ................................ = 6.89000E+04 + vnu .............................. = 3.30000E-01 + yield ............................ = 1.17000E+02 + e (harden) ....................... = 6.80000E+00 + hardening parmeter ............... = 1.00000E+00 + strainrate parameter, c .......... = 0.00000E+00 + strainrate parameter, p .......... = 0.00000E+00 + formulation for rate effects ..... = 0.00000E+00 + eq.0.0: default + eq.1.0: viscoplastic + failure strain for erosion........ = 0.00000E+00 + solid formulation ............... = 0 + eq.-2: 8 point integration-3dof/node + for poor aspect ratio elements + eq.-1: 8 point integration-3dof/node + for poor aspect ratio elements + (efficient variant of -2 but + prone to some hourglassing) + eq. 1: 1 point integration + eq. 2: 8 point integration-3dof/node + eq. 3: 14 point integration-6dof/node + eq. 4: 5 point tetrahedron-6dof/node + eq. 5: 1 point ale + eq. 6: 1 point eulerian + eq. 7: 1 point eulerian ambient + eq. 8: 1 point acoustic + eq. 9: 1 point corotational + eq.10: 1 point tetrahedron + eq.11: multi-material eulerian + eq.12: eulerian with void + eq.13: nodal pressure tetrahedron + eq.14: 8 point acoustic + eq.15: 2 point pentahedron + eq.115: 1 point pentahedron + eq.16: 10-node quadratic tetrahedron + eq.17: 10-node composite tetrahedron + eq.18: linear static element + eq.19: 8-node 2x2 cohesive + eq.20: 8-node 2x2 cohesive with offsets for shells + eq.21: 6-node 1x1 cohesive + eq.22: 6-node 1x1 cohesive with offsets for shells + eq.23: 20-node quadratic hexahedron + eq.41: efg 3d + eq.42: efg 3d for 4-noded background + eq.43: mesh-free enriched finite element + eq.47: smoothed particle Galerkin method + eq.99: elastic vibration element + corotational local coord. ........ = 0 + eq. 0: not requested + eq. 1: requested + + *********************************************************************** + + + null shells for visualization + + part id ..................... 1 + section id ..................... -12345677 + material id ..................... 0 + section title .................. + material title .................. + material type .............. 9 + equation-of-state type ..... 0 + hourglass type ............. 2 + bulk viscosity type ........ 1 + density .......................... = 1.30000E-13 + hourglass coefficient (membrane).. = 1.00000E-01 + hourglass coefficient (rotation).. = 1.00000E-01 + hourglass coefficient (warping ).. = 1.00000E-01 + quadratic bulk viscosity ......... = 1.50000E+00 + linear bulk viscosity ............ = 6.00000E-02 + element type ..................... = 2 + eq.0: 4, 6, 8, 10-node solid element + eq.1: 2-node beam or truss or 2D shell element + eq.2: 3, 4-node membrane/shell or 2D continuum element + eq.3: 8-node thick shell element + eq.4: SPH element + flag for bulk viscosity in shells. = 0 + flag for rbdout/matsum output ... = 0 + eq.0: rbdout and matsum + eq.1: rbdout only + eq.2: matsum only + eq.3: no output + static coefficient of friction ... = 0.00000E+00 + kinetic coefficient of friction... = 0.00000E+00 + exponential decay coefficient .... = 0.00000E+00 + viscous friction coefficient ..... = 0.00000E+00 + optional contact thickness ....... = 0.00000E+00 + optional thickness scale factor... = 0.00000E+00 + local penalty scale factor........ = 0.00000E+00 + optional beam to beam cparm8...... = 0 + flag for adaptive remeshing ...... = 0 + eq.0: inactive + eq.1: h-adaptive only + eq.2: r-adaptive only + rayleigh damping coefficient...... = 0.00000E+00 + pressure cutoff .................. = 0.00000E+00 + viscosity coefficient ............ = 0.00000E+00 + relative volume for tensile fail.. = 0.00000E+00 + relative volume for compres fail.. = 0.00000E+00 + e ..(null shells and beams)....... = 0.00000E+00 + vnu (null shells and beams)....... = 0.00000E+00 + shear area factor ................ = 1.00000E+00 + thru-thickness integration points = 2.00000E+00 + print out option ................. = 3.00000E+00 + eq.1.0:average resultants & fiber lengths + eq.2.0:resultants at plan points & fiber lengths + eq.3.0:resultants,stresses all points & fiber lengths + integration rule ................. = 0.00000E+00 + lt.0.0:absolute value is specified rule # + eq.0.0:gauss (trapezoidal if > 10 IP) + eq.1.0:trapezoidal rule + shell formulation ................ = 2 + eq. 1: hughes-liu + eq. 2: belytschko-tsay + eq. 3: bciz + eq. 4: c0-triangular element + eq. 5: membrane element + eq. 6: s/r hughes-liu + eq. 7: s/r co-rotational hughes-liu + eq. 8: belytschko-leviathan + eq. 9: fully integrated membrane + eq. 10: belytschko-wong-chiang + eq. 11: fast hughes-liu + eq. 12: 2d plane stress + eq. 13: 2d plane strain + eq. 14: 2d axisymmetric (area wgt) + eq. 15: 2d axisymmetric (volume wgt) + eq. 16: fully integrated element + eq. -16: modified fully integrated element + eq. 17: dkt element + eq. 18: dkq-dkt linear element + eq. 20: assumed strain linear element + eq. 21: assumed strain linear elem(5DOF) + eq. 22: linear shear panel element(3DOF) + eq. 23: 8-node quadratic quadrilateral + eq. 24: 6-node quadratic triangular + eq. 25: belytschko-tsay with + thickness stretch + eq. 26: fully integrated element with + thickness stretch + eq. 27: c0-triangular element with + thickness stretch + eq. 29: cohesive element for shell + edge-to-edge connections + eq. -29: cohesive element with midlayer + coordinate system for pure shear + eq. 30: fast fully integrated element with + 2 in-plane integration points + eq. 41: meshfree shell local projection + eq. 42: meshfree shell global projection + eq. 43: meshfree plane strain + eq. 44: meshfree axisymmetric solid + eq. 46: cohesive element compatible with + 2D plane stress, plane strain, or + area-weighted axisymmetric + elements + eq. 47: cohesive element compatible with + 2d volume-weighted axisymmetric + elements + eq. 52: 2d plane strain xfem + eq. 54: 4-node quadrilateral shell xfem + eq. 55: 8-node 2D plane strain fracture + eq. 98: interpolation shell element + eq. 99: elastic vibration element + eq. 201: isogeometric nurbs element + ge.1000: user defined (generalized) shell + shell thickness: node 1 .. = 1.00000E-09 + node 2 .. = 1.00000E-09 + node 3 .. = 1.00000E-09 + node 4 .. = 1.00000E-09 + shell thickness scale factor ..... = 0.00000E+00 + reference surface ................ = 0.00000E+00 + eq. 1.0:top + eq. 0.0:middle + eq.-1.0:bottom + mass per unit area ............... = 0.00000E+00 + flag for discontinuous thickness + field for elements with thickness + stretch .......................... = 2 + eq. 0: default is 1 + eq. 1: thickness field is continuous + eq. 2: thickness field is discontinous + eq. 3: thickness strain is governed by + the contact stress + accurate type 16 formulation...... = 0 + + + + + + + + + n o d a l p o i n t c o o r d i n a t e s + node ID trnbc x-ord y-ord z-ord rotbc + 1001801 0.0 0.4998E+00 -0.1105E+02 0.0000E+00 0.0 + 1001802 0.0 0.7115E+00 -0.1105E+02 0.0000E+00 0.0 + 1001803 0.0 0.9232E+00 -0.1105E+02 0.0000E+00 0.0 + 1001804 0.0 0.1135E+01 -0.1105E+02 0.0000E+00 0.0 + 1001805 0.0 0.1347E+01 -0.1105E+02 0.0000E+00 0.0 + 1001921 0.0 0.4998E+00 -0.1086E+02 0.0000E+00 0.0 + 1001922 0.0 0.7115E+00 -0.1086E+02 0.0000E+00 0.0 + 1001923 0.0 0.9232E+00 -0.1086E+02 0.0000E+00 0.0 + 1001924 0.0 0.1135E+01 -0.1086E+02 0.0000E+00 0.0 + 1001925 0.0 0.1347E+01 -0.1086E+02 0.0000E+00 0.0 + 1002041 0.0 0.4998E+00 -0.1067E+02 0.0000E+00 0.0 + 1002042 0.0 0.7115E+00 -0.1067E+02 0.0000E+00 0.0 + 1002043 0.0 0.9232E+00 -0.1067E+02 0.0000E+00 0.0 + 1002044 0.0 0.1135E+01 -0.1067E+02 0.0000E+00 0.0 + 1002045 0.0 0.1347E+01 -0.1067E+02 0.0000E+00 0.0 + 1002161 0.0 0.4998E+00 -0.1048E+02 0.0000E+00 0.0 + 1002162 0.0 0.7115E+00 -0.1048E+02 0.0000E+00 0.0 + 1002163 0.0 0.9232E+00 -0.1048E+02 0.0000E+00 0.0 + 1002164 0.0 0.1135E+01 -0.1048E+02 0.0000E+00 0.0 + 1002165 0.0 0.1347E+01 -0.1048E+02 0.0000E+00 0.0 + 1002281 0.0 0.4998E+00 -0.1029E+02 0.0000E+00 0.0 + 1002282 0.0 0.7115E+00 -0.1029E+02 0.0000E+00 0.0 + 1002283 0.0 0.9232E+00 -0.1029E+02 0.0000E+00 0.0 + 1002284 0.0 0.1135E+01 -0.1029E+02 0.0000E+00 0.0 + 1002285 0.0 0.1347E+01 -0.1029E+02 0.0000E+00 0.0 + 1002286 7.0 0.0000E+00 -0.1026E+02 0.2540E-01 7.0 + 1002287 7.0 0.0000E+00 -0.1026E+02 -0.2540E-01 7.0 + 1002288 7.0 0.0000E+00 -0.1107E+02 -0.2540E-01 7.0 + 1002289 7.0 0.0000E+00 -0.1107E+02 0.2540E-01 7.0 + + + n o d a l s p c s u m m a r y o n *NODE cards + boundary conditions (on=1) + node x y z rx ry rz + 1002286 1 1 1 1 1 1 + 1002287 1 1 1 1 1 1 + 1002288 1 1 1 1 1 1 + 1002289 1 1 1 1 1 1 + + + s h e l l e l e m e n t s + elem id part id node1 node2 node3 node4 + thick1 thick2 thick3 thick4 angle offset + 1 1 1002286 1002287 1002288 1002289 + 1.0000E-09 1.0000E-09 1.0000E-09 1.0000E-09 0.0000E+00 0.0000E+00 + + + + S P H e l e m e n t m a s s d a t a + + element id mat id mass + 1001801 101 0.1093E-03 + 1001802 101 0.1093E-03 + 1001803 101 0.1093E-03 + 1001804 101 0.1093E-03 + 1001805 101 0.1093E-03 + 1001921 101 0.1093E-03 + 1001922 101 0.1093E-03 + 1001923 101 0.1093E-03 + 1001924 101 0.1093E-03 + 1001925 101 0.1093E-03 + 1002041 101 0.1093E-03 + 1002042 101 0.1093E-03 + 1002043 101 0.1093E-03 + 1002044 101 0.1093E-03 + 1002045 101 0.1093E-03 + 1002161 101 0.1093E-03 + 1002162 101 0.1093E-03 + 1002163 101 0.1093E-03 + 1002164 101 0.1093E-03 + 1002165 101 0.1093E-03 + 1002281 101 0.1093E-03 + 1002282 101 0.1093E-03 + 1002283 101 0.1093E-03 + 1002284 101 0.1093E-03 + 1002285 101 0.1093E-03 + + + + r i g i d w a l l d e f i n i t i o n s + + + + + rigidwall ID = 1 + # of slave nodes = 25 + birth time = 0.00000E+00 + death time = 0.10000E+21 + penalty scale factor = 0.10000E+01 + moving rigidwall flag = 0 + eq.1: flat rigidwall has mass and vel. + eq.2: prescribed velocity history + eq.3: prescribed displacement history + generalized rigidwall type = 0 + eq.0: flat of infinite extent + eq.1: flat with defined size + eq.2: extra nodes and softening + eq.3: options 2 and 3 active + eq.4: prescribed motion flat plate + eq.5: prescribed motion cylinder + eq.6: prescribed motion sphere + eq.7: prescribed motion prism + eq.8: prescribed motion cylinder (interior) + eq.9: prescribed motion sphere (interior) + stick condtion = 0.00000E+00 + eq.0: frictionless sliding + gt.0.and.lt.1:frictional sliding + eq.1: sticking + eq.2: normal weld + eq.3: sticking weld + + coordinates of orientation vector are + i j + 0.0000E+00 0.1000E+01 + 0.0000E+00 0.0000E+00 + 0.0000E+00 0.0000E+00 + slave nodes + 1001801 1001802 1001803 1001804 1001805 1001921 1001922 1001923 + 1001924 1001925 1002041 1002042 1002043 1002044 1002045 1002161 + 1002162 1002163 1002164 1002165 1002281 1002282 1002283 1002284 + 1002285 + + + n o d a l p o i n t v e l o c i t i e s + + node id x-vel y-vel z-vel + x-rot y-rot z-rot + 1001801 -5.0000E+01 0.0000E+00 0.0000E+00 + 0.0000E+00 0.0000E+00 0.0000E+00 + 1001802 -5.0000E+01 0.0000E+00 0.0000E+00 + 0.0000E+00 0.0000E+00 0.0000E+00 + 1001803 -5.0000E+01 0.0000E+00 0.0000E+00 + 0.0000E+00 0.0000E+00 0.0000E+00 + 1001804 -5.0000E+01 0.0000E+00 0.0000E+00 + 0.0000E+00 0.0000E+00 0.0000E+00 + 1001805 -5.0000E+01 0.0000E+00 0.0000E+00 + 0.0000E+00 0.0000E+00 0.0000E+00 + 1001921 -5.0000E+01 0.0000E+00 0.0000E+00 + 0.0000E+00 0.0000E+00 0.0000E+00 + 1001922 -5.0000E+01 0.0000E+00 0.0000E+00 + 0.0000E+00 0.0000E+00 0.0000E+00 + 1001923 -5.0000E+01 0.0000E+00 0.0000E+00 + 0.0000E+00 0.0000E+00 0.0000E+00 + 1001924 -5.0000E+01 0.0000E+00 0.0000E+00 + 0.0000E+00 0.0000E+00 0.0000E+00 + 1001925 -5.0000E+01 0.0000E+00 0.0000E+00 + 0.0000E+00 0.0000E+00 0.0000E+00 + 1002041 -5.0000E+01 0.0000E+00 0.0000E+00 + 0.0000E+00 0.0000E+00 0.0000E+00 + 1002042 -5.0000E+01 0.0000E+00 0.0000E+00 + 0.0000E+00 0.0000E+00 0.0000E+00 + 1002043 -5.0000E+01 0.0000E+00 0.0000E+00 + 0.0000E+00 0.0000E+00 0.0000E+00 + 1002044 -5.0000E+01 0.0000E+00 0.0000E+00 + 0.0000E+00 0.0000E+00 0.0000E+00 + 1002045 -5.0000E+01 0.0000E+00 0.0000E+00 + 0.0000E+00 0.0000E+00 0.0000E+00 + 1002161 -5.0000E+01 0.0000E+00 0.0000E+00 + 0.0000E+00 0.0000E+00 0.0000E+00 + 1002162 -5.0000E+01 0.0000E+00 0.0000E+00 + 0.0000E+00 0.0000E+00 0.0000E+00 + 1002163 -5.0000E+01 0.0000E+00 0.0000E+00 + 0.0000E+00 0.0000E+00 0.0000E+00 + 1002164 -5.0000E+01 0.0000E+00 0.0000E+00 + 0.0000E+00 0.0000E+00 0.0000E+00 + 1002165 -5.0000E+01 0.0000E+00 0.0000E+00 + 0.0000E+00 0.0000E+00 0.0000E+00 + 1002281 -5.0000E+01 0.0000E+00 0.0000E+00 + 0.0000E+00 0.0000E+00 0.0000E+00 + 1002282 -5.0000E+01 0.0000E+00 0.0000E+00 + 0.0000E+00 0.0000E+00 0.0000E+00 + 1002283 -5.0000E+01 0.0000E+00 0.0000E+00 + 0.0000E+00 0.0000E+00 0.0000E+00 + 1002284 -5.0000E+01 0.0000E+00 0.0000E+00 + 0.0000E+00 0.0000E+00 0.0000E+00 + 1002285 -5.0000E+01 0.0000E+00 0.0000E+00 + 0.0000E+00 0.0000E+00 0.0000E+00 + 1002286 -5.0000E+01 0.0000E+00 0.0000E+00 + 0.0000E+00 0.0000E+00 0.0000E+00 + 1002287 -5.0000E+01 0.0000E+00 0.0000E+00 + 0.0000E+00 0.0000E+00 0.0000E+00 + 1002288 -5.0000E+01 0.0000E+00 0.0000E+00 + 0.0000E+00 0.0000E+00 0.0000E+00 + 1002289 -5.0000E+01 0.0000E+00 0.0000E+00 + 0.0000E+00 0.0000E+00 0.0000E+00 + + *** S.P.H. *** + + Space dimension for SPH 2 + + Initial Smoothing length : PART # 101 0.2476504E+00 + SPH PART # 101 + hmin : 0.4953E-01 + hmax : 0.4953E+00 + +************ + + + t i e d n o d a l p a i r s f o r l i n k i n g + + + ************************************************************ + + + m a s s p r o p e r t i e s o f SPH p a r t # 101 + total mass of part = 0.27318476E-02 + x-coordinate of mass center = 0.92316645E+00 + y-coordinate of mass center =-0.10666248E+02 + z-coordinate of mass center = 0.00000000E+00 + + inertia tensor of material + row1= 0.1983E-03 0.4033E-08 0.0000E+00 + row2= 0.4033E-08 0.2448E-03 0.0000E+00 + row3= 0.0000E+00 0.0000E+00 0.4431E-03 + + ************************************************************ + + + m a s s p r o p e r t i e s o f p a r t # 1 + total mass of part = 0.53677338E-23 + x-coordinate of mass center = 0.00000000E+00 + y-coordinate of mass center =-0.57253584E-06 + z-coordinate of mass center =-0.18861088E-16 + + inertia tensor of material + row1= 0.6116E-21 0.0000E+00 0.0000E+00 + row2= 0.0000E+00 0.3463E-26 0.0000E+00 + row3= 0.0000E+00 0.0000E+00 0.6116E-21 + + principal inertias + i11 = 0.6116E-21 + i22 = 0.3463E-26 + i33 = 0.6116E-21 + + principal directions + row1= 0.1000E+01 0.0000E+00 0.0000E+00 + row2= 0.0000E+00 0.1000E+01 0.0000E+00 + row3= 0.0000E+00 0.0000E+00 0.1000E+01 + + ************************************************************ + + + m a s s p r o p e r t i e s o f b o d y + total mass of body = 0.27318473E-02 + x-coordinate of mass center = 0.92316651E+00 + y-coordinate of mass center =-0.10666249E+02 + z-coordinate of mass center = 0.00000000E+00 + + inertia tensor of body + row1= 0.1983E-03 0.2184E-08 0.0000E+00 + row2= 0.2184E-08 0.2448E-03 0.0000E+00 + row3= 0.0000E+00 0.0000E+00 0.4431E-03 + + principal inertias of body + i11 = 0.1983E-03 + i22 = 0.2448E-03 + i33 = 0.4431E-03 + + principal directions + row1= 0.1000E+01 0.4696E-04 0.0000E+00 + row2= -0.4696E-04 0.1000E+01 0.0000E+00 + row3= 0.0000E+00 0.0000E+00 0.1000E+01 + + ************************************************************ + + + ************************************************************ + + NOTE : For 2D axisymmetric problems the following + masses are reported per radian. + For 2D plain strain/stress problems the + masses are reported per unit thickness. + + summary of mass + lumped mass in deformable + part of structure mass= 0.00000000E+00 + part id = 101 mass= 0.27318476E-02 + part id = 1 mass= 0.53677311E-23 + + t o t a l m a s s = 0.27318476E-02 + x-coordinate of mass center = 0.92316651E+00 + y-coordinate of mass center =-0.10666249E+02 + z-coordinate of mass center = 0.00000000E+00 + + + + ************************************************************ + + + Make sure that every FE node gets rotary inertia: + 25 nodes out of a total of 29 nodes have no own rotational mass (e.g. solids) + and therefore get an average value of RMAVG = 1.3852E-26 + (unit of mass*length*length, e.g., kg*mm^2) + + ************************************************************ + + + S t o r a g e a l l o c a t i o n + + Memory required to begin solution : 296K + Additional dynamically allocated memory: 428K + Total: 428K + + 25 smallest timesteps + ------------------------------------------------ + element number part timestep + sph 1002285 101 5.4722E-05 + sph 1002284 101 5.4722E-05 + sph 1002283 101 5.4722E-05 + sph 1002282 101 5.4722E-05 + sph 1002281 101 5.4722E-05 + sph 1002165 101 5.4722E-05 + sph 1002164 101 5.4722E-05 + sph 1002163 101 5.4722E-05 + sph 1002162 101 5.4722E-05 + sph 1002161 101 5.4722E-05 + sph 1002045 101 5.4722E-05 + sph 1002044 101 5.4722E-05 + sph 1002043 101 5.4722E-05 + sph 1002042 101 5.4722E-05 + sph 1002041 101 5.4722E-05 + sph 1001925 101 5.4722E-05 + sph 1001924 101 5.4722E-05 + sph 1001923 101 5.4722E-05 + sph 1001922 101 5.4722E-05 + sph 1001921 101 5.4722E-05 + sph 1001805 101 5.4722E-05 + sph 1001804 101 5.4722E-05 + sph 1001803 101 5.4722E-05 + sph 1001802 101 5.4722E-05 + sph 1001801 101 5.4722E-05 + 1 t 0.0000E+00 dt 5.47E-05 flush i/o buffers 08/31/25 16:54:42 + 1 t 0.0000E+00 dt 5.47E-05 write d3plot file 08/31/25 16:54:42 + 74 t 3.9947E-03 dt 5.47E-05 write d3plot file 08/31/25 16:54:42 + 147 t 7.9894E-03 dt 5.47E-05 write d3plot file 08/31/25 16:54:42 + 220 t 1.1984E-02 dt 5.46E-05 write d3plot file 08/31/25 16:54:42 + 293 t 1.5975E-02 dt 5.47E-05 write d3plot file 08/31/25 16:54:42 + 366 t 1.9968E-02 dt 5.47E-05 write d3plot file 08/31/25 16:54:42 + 439 t 2.3961E-02 dt 5.47E-05 write d3plot file 08/31/25 16:54:42 + 512 t 2.7961E-02 dt 5.47E-05 write d3plot file 08/31/25 16:54:42 + 585 t 3.1958E-02 dt 5.47E-05 write d3plot file 08/31/25 16:54:42 + + *** termination time reached *** + 640 t 3.5031E-02 dt 5.47E-05 write d3dump01 file 08/31/25 16:54:42 + 640 t 3.5031E-02 dt 5.47E-05 write d3plot file 08/31/25 16:54:42 + + N o r m a l t e r m i n a t i o n 08/31/25 16:54:42 + + S t o r a g e a l l o c a t i o n + + Memory required to complete solution : 296K + Additional dynamically allocated memory: 483K + Total: 483K + + T i m i n g i n f o r m a t i o n + CPU(seconds) %CPU Clock(seconds) %Clock + ---------------------------------------------------------------- + Keyword Processing ... 0.0000E+00 0.00 1.1000E-02 0.86 + KW Reading ......... 0.0000E+00 0.00 1.0000E-03 0.08 + KW Writing ......... 0.0000E+00 0.00 5.0000E-03 0.39 + Initialization ....... 1.0000E+00 100.00 1.2040E+00 93.77 + Init Proc Phase 1 .. 0.0000E+00 0.00 7.0000E-03 0.55 + Init Proc Phase 2 .. 0.0000E+00 0.00 2.0000E-03 0.16 + Element processing ... 0.0000E+00 0.00 2.5000E-02 1.95 + SPH ................ 0.0000E+00 0.00 2.4000E-02 1.87 + Binary databases ..... 0.0000E+00 0.00 3.0000E-03 0.23 + ASCII database ....... 0.0000E+00 0.00 2.0000E-02 1.56 + Time step size ....... 0.0000E+00 0.00 1.0000E-03 0.08 + Rigid wall ........... 0.0000E+00 0.00 1.0000E-03 0.08 + Misc. 1 .............. 0.0000E+00 0.00 7.0000E-03 0.55 + Force to Accel ..... 0.0000E+00 0.00 1.0000E-03 0.08 + Update RB nodes .... 0.0000E+00 0.00 1.0000E-03 0.08 + Misc. 3 .............. 0.0000E+00 0.00 9.0000E-03 0.70 + Misc. 4 .............. 0.0000E+00 0.00 3.0000E-03 0.23 + Apply Loads ........ 0.0000E+00 0.00 2.0000E-03 0.16 + ---------------------------------------------------------------- + T o t a l s 1.0000E+00 100.00 1.2840E+00 100.00 + + Problem time = 3.5031E-02 + Problem cycle = 640 + Total CPU time = 1 seconds ( 0 hours 0 minutes 1 seconds) + CPU time per zone cycle = 0.000 picoseconds + Clock time per zone cycle= 4146635.000 picoseconds + + Number of CPU's 2 + NLQ used/max 136/ 136 + Start time 08/31/2025 16:54:42 + End time 08/31/2025 16:54:42 + Elapsed time 0 second for 640 cycles using 2 SMP threads + ( 0 hour 0 minute 0 second ) + + N o r m a l t e r m i n a t i o n 08/31/25 16:54:42 diff --git a/test/test_data/sph_models/R12_2_1_Histvar=2/d3plot b/test/test_data/sph_models/R12_2_1_Histvar=2/d3plot new file mode 100644 index 0000000..416bb19 Binary files /dev/null and b/test/test_data/sph_models/R12_2_1_Histvar=2/d3plot differ diff --git a/test/test_data/sph_models/R12_2_1_Histvar=2/d3plot01 b/test/test_data/sph_models/R12_2_1_Histvar=2/d3plot01 new file mode 100644 index 0000000..71112a5 Binary files /dev/null and b/test/test_data/sph_models/R12_2_1_Histvar=2/d3plot01 differ diff --git a/test/test_data/sph_models/R12_2_1_Histvar=2/d3plot02 b/test/test_data/sph_models/R12_2_1_Histvar=2/d3plot02 new file mode 100644 index 0000000..e7f1fa9 Binary files /dev/null and b/test/test_data/sph_models/R12_2_1_Histvar=2/d3plot02 differ diff --git a/test/test_data/sph_models/R7_1_2/binout b/test/test_data/sph_models/R7_1_2/binout new file mode 100644 index 0000000..50a2aac Binary files /dev/null and b/test/test_data/sph_models/R7_1_2/binout differ diff --git a/test/test_data/sph_models/R7_1_2/d3hsp b/test/test_data/sph_models/R7_1_2/d3hsp new file mode 100644 index 0000000..dc01075 --- /dev/null +++ b/test/test_data/sph_models/R7_1_2/d3hsp @@ -0,0 +1,3016 @@ + Date: 08/31/2025 Time: 16:53:38 + + ___________________________________________________ + | | + | Livermore Software Technology Corporation | + | | + | 7374 Las Positas Road | + | Livermore, CA 94551 | + | Tel: (925) 449-2500 Fax: (925) 449-2507 | + | www.lstc.com | + |_________________________________________________| + | | + | LS-DYNA, A Program for Nonlinear Dynamic | + | Analysis of Structures in Three Dimensions | + | Version : smp s R7.1.2 Date: 01/07/2015 | + | Revision: 95103 Time: 10:23:13 | + | | + | Features enabled in this version: | + | Shared Memory Parallel | + | FFTW (multi-dimensional FFTW Library) | + | Interactive Graphics | + | ANSYS Database format | + | NSYS License (ANSYS145) | + | | + | Licensed to: University of Waterloo -- 1081066 | + | Issued by : Pascale.SaneGuttin_08122025 | + | | + | Platform : WINDOWS X64 | + | OS Level : Windows Vista/7/8 Server 2008/2012| + | Compiler : Intel Fortran XE 2013 MSVC++ 2010 | + | Hostname : Trauma118 | + | Precision : Single precision (I4R4) | + | SVN Version: 95103 | + | | + | Unauthorized use infringes LSTC copyrights | + |_________________________________________________| + + + Input file: C:\Users\DCHartlen\Documents\Scratchpad\lasso-python\test\test_data\sph_ + + The native file format : 32-bit small endian + Memory size from command line: 20000000 + + ******** notice ******** notice ******** notice ******** + * * + * This is the LS-DYNA Finite Element code. * + * * + * Neither LSTC nor the authors assume any responsibility for * + * the validity, accuracy, or applicability of any results * + * obtained from this system. The user must verify his own * + * results. * + * * + * LSTC endeavors to make the LS-DYNA code as complete, * + * accurate and easy to use as possible. * + * Suggestions and comments are welcomed. Please report any * + * errors encountered in either the documentation or results * + * immediately to LSTC through your site focus. * + * * + * Copyright (C) 1990-2015 * + * by Livermore Software Technology Corp. (LSTC) * + * All rights reserved * + * * + ******** notice ******** notice ******** notice ******** + + Beginning of keyword reader 08/31/25 16:53:38 + + + ** ****** ********** ******* + ** ******* ********** ******** + ** ** ** *** + ** ******* ** ** + ** ** ** *** + ********* ******** ** ******** + ********* ****** ** ****** + + +** ****** ******* ** ** * ** ***** +** ******* ******** ** ** ** ** ******* +** ** ** *** ** ** *** ** *** *** +** ** ** *** ** ** *** ** *** *** +** ** ** ** ** **** ** ** ** ********* +** ** ** *** ** ** *** ** ** +** ** ** *** ** ** *** ** ** +********* ******* ******* ** ** ** ** ** +********* ******* ****** ** ** * ** ** + + L I S T O F K E Y W O R D C O U N T S + +total # of *AIRBAG_option.......................... 0 +total # of *AIRBAG_INTERACTION..................... 0 +total # of *AIRBAG_PARTICLE........................ 0 +total # of *AIRBAG_REFERENCE_GEOMETRY.............. 0 +total # of *AIRBAG_SHELL_REFERENCE_GEOMETRY........ 0 +total # of *PARTICLE_BLAST......................... 0 +total # 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of *DEFINE_DE_BY_PART...................... 0 +total # of *DEFINE_FRICTION........................ 0 +total # of *DEFINE_FUNCTION........................ 0 +total # of *DEFINE_GROUND_MOTION................... 0 +total # of *DEFINE_PLANE........................... 0 +total # of *DEFINE_PBLAST_GEOMETRY................. 0 +total # of *DEFINE_VECTOR.......................... 0 +total # of *DEFINE_VECTOR_NODE..................... 0 +total # of *DEFINE_SD_ORIENTATION.................. 0 +total # of *DEFINE_ELEMENT_DEATH_SOLID............. 0 +total # of *DEFINE_ELEMENT_DEATH_BEAM.............. 0 +total # of *DEFINE_ELEMENT_DEATH_SHELL............. 0 +total # of *DEFINE_SHELL_ELEMENT_DEATH_THICK....... 0 +total # of *DEFINE_SPH_TO_SPH_COUPLING............. 0 +total # of *DEFINE_SPH_DE_COUPLING................. 0 +total # of *DEFINE_SPOTWELD_RUPTURE_STRESS......... 0 +total # of *DEFINE_SPOTWELD_RUPTURE_PARAMETER...... 0 +total # of *DEFINE_STAGED_CONSTRUCTION_PART ....... 0 +total # of *DATABASE_BKSTAT........................ 0 +total # of *DEFORMABLE_TO_RIGID.................... 0 +total # of *DEFORMABLE_TO_RIGID_AUTOMATIC.......... 0 +total # of *DEFORMABLE_TO_RIGID_INERTIA............ 0 +total # of *ELEMENT_BEAM_option.................... 0 +total # of *ELEMENT_BEAM_PULLEY.................... 0 +total # of *ELEMENT_DISCRETE....................... 0 +total # of *ELEMENT_MASS........................... 0 +total # of *ELEMENT_MASS_PART...................... 0 +total # of *ELEMENT_SEATBELT....................... 0 +total # of *ELEMENT_SEATBELT_ACCELEROMETER......... 0 +total # of *ELEMENT_SEATBELT_PRETENSIONER.......... 0 +total # of *ELEMENT_SEATBELT_RETRACTOR............. 0 +total # of *ELEMENT_SEATBELT_SENSOR................ 0 +total # of *ELEMENT_SEATBELT_SLIPRING.............. 0 +total # of *ELEMENT_SHELL_option................... 0 +total # of *ELEMENT_SHELL_NURBS_PATCH.............. 0 +total # of *ELEMENT_SOLID.......................... 0 +total # of *ELEMENT_SOLID_NURBS_PATCH.............. 0 +total # of *ELEMENT_SPH............................ 25 +total # of *ELEMENT_TSHELL......................... 0 +total # of *ELEMENT_INERTIA........................ 0 +total # of *SENSOR_SWITCH_SHELL_TO_VENT............ 0 +total # of *EOS_option............................. 0 +total # of *FREQUENCY_DOMAIN_ACOUSTIC_BEM.......... 0 +total # of *FREQUENCY_DOMAIN_ACOUSTIC_FEM.......... 0 +total # of *FREQUENCY_DOMAIN_FRF................... 0 +total # of *FREQUENCY_DOMAIN_MODE.................. 0 +total # of *FREQUENCY_DOMAIN_PATH.................. 0 +total # of *FREQUENCY_DOMAIN_RANDOM_VIBRATION...... 0 +total # of *FREQUENCY_DOMAIN_RESPONSE_SPECTRUM..... 0 +total # of *FREQUENCY_DOMAIN_SSD................... 0 +total # of *FV_MESHES.............................. 0 +total # of *FV_FSI................................. 0 +total # of *HOURGLASS.............................. 0 +total # of *INITIAL_AIRBAG_PARTICLE_POSITION....... 0 +total # of *INITIAL_AXIAL_FORCE_BEAM............... 0 +total # of *INITIAL_DETONATION..................... 0 +total # of *INITIAL_FIELD_SOLID.................... 0 +total # of *INITIAL_IMPULSE_MINE................... 0 +total # of *INITIAL_MOMENTUM....................... 0 +total # of *INITIAL_PWP_DEPTH ..................... 0 +total # of *INITIAL_STRAIN_SHELL................... 0 +total # of *INITIAL_STRAIN_SHELL_SET............... 0 +total # of *INITIAL_STRAIN_SOLID................... 0 +total # of *INITIAL_STRAIN_TSHELL.................. 0 +total # of *INITIAL_STRESS_BEAM.................... 0 +total # of *INITIAL_STRESS_DEPTH .................. 0 +total # of *INITIAL_STRESS_SECTION................. 0 +total # of *INITIAL_STRESS_SHELL................... 0 +total # of *INITIAL_STRESS_SHELL_SET............... 0 +total # of *INITIAL_STRESS_SOLID................... 0 +total # of *INITIAL_STRESS_SPH..................... 0 +total # of *INITIAL_STRESS_TSHELL.................. 0 +total # of *INITIAL_TEMPERATURE_SET................ 0 +total # of *INITIAL_TEMPERATURE_NODE............... 0 +total # of *INITIAL_VELOCITY....................... 1 +total # of *INITIAL_VELOCITY_NODE.................. 0 +total # of *INITIAL_VELOCITY_RIGID_BODY............ 0 +total # of *INITIAL_VOID_PART...................... 0 +total # of *INITIAL_VOID_SET....................... 0 +total # of *INITIAL_VOLUME_FRACTION_GEOMETRY....... 0 +total # of *INITIAL_HYDROSTATIC_ALE................ 0 +total # of *INITIAL_EOS_ALE........................ 0 +total # of *INITIAL_ALE_MAPPING.................... 0 +total # of *INTEGRATION_BEAM....................... 0 +total # of *INTEGRATION_SHELL...................... 0 +total # of *INTERFACE_COMPONENT_option............. 0 +total # of *INTERFACE_DE_HBOND..................... 0 +total # of *INTERFACE_LINKING_DISCRETE_NODE........ 0 +total # of *INTERFACE_LINKING_DISCRETE_NODE_SET.... 0 +total # of *INTERFACE_LINKING_EDGE................. 0 +total # of *INTERFACE_LINKING_SEGMENT.............. 0 +total # of *INTERFACE_SPRINGBACK................... 0 +total # of *INTERFACE_SSI_AUXILIARY_FREE_FIELD..... 0 +total # of *INTERFACE_SSI_STATIC................... 0 +total # of *INTERFACE_SSI.......................... 0 +total # of *LOAD_ALE_CONVECTION ................... 0 +total # of *LOAD_AIR_PRESSURE...................... 0 +total # of *LOAD_BEAM.............................. 0 +total # of *LOAD_BEAM_SET.......................... 0 +total # of *LOAD_BODY_GENERALIZED.................. 0 +total # of *LOAD_BODY_POROUS...................... 0 +total # of *LOAD_BODY_RX........................... 0 +total # of *LOAD_BODY_RY........................... 0 +total # of *LOAD_BODY_RZ........................... 0 +total # of *LOAD_BODY_X............................ 0 +total # of *LOAD_BODY_Y............................ 0 +total # of *LOAD_BODY_Z............................ 0 +total # of *LOAD_BRODE............................. 0 +total # of *LOAD_BLAST............................. 0 +total # of *LOAD_BLAST_ENHANCED.................... 0 +total # of *LOAD_BLAST_SEGMENT..................... 0 +total # of *LOAD_BLAST_SEGMENT_SET................. 0 +total # of *LOAD_DENSITY_DEPTH .................... 0 +total # of *LOAD_GRAVITY_PART ..................... 0 +total # of *LOAD_HEAT_CHEMICAL_REACTION ........... 0 +total # of *LOAD_HEAT_CONTROLLER .................. 0 +total # of *LOAD_HEAT_GENERATION_SET............... 0 +total # of *LOAD_HEAT_GENERATION_SOLID............. 0 +total # of *LOAD_HEAT_GENERATION_SET_SHELL......... 0 +total # of *LOAD_HEAT_GENERATION_SHELL............. 0 +total # of *LOAD_NODE.............................. 0 +total # of *LOAD_NODE_SET.......................... 0 +total # of *LOAD_NSG............................... 0 +total # of *LOAD_REMOVE_PART ...................... 0 +total # of *LOAD_SEGMENT........................... 0 +total # of *LOAD_SEGMENT_FSILNK.................... 0 +total # of *LOAD_SEGMENT_NONUNIFORM................ 0 +total # of *LOAD_SEGMENT_SET....................... 0 +total # of *LOAD_SEGMENT_SET_NONUNIFORM............ 0 +total # of *LOAD_SEISMIC_SSI_NODE.................. 0 +total # of *LOAD_SEISMIC_SSI_SET................... 0 +total # of *LOAD_SEISMIC_SSI_POINT................. 0 +total # of *LOAD_SEISMIC_SSI_DECONV................ 0 +total # of *LOAD_SHELL............................. 0 +total # of *LOAD_SHELL_SET......................... 0 +total # of *LOAD_STIFFEN_PART ..................... 0 +total # of *LOAD_SUPERPLASTIC_FORMING.............. 0 +total # of *LOAD_SURFACE_STRESS.................... 0 +total # of *LOAD_THERMAL_option_ELEMENT............ 0 +total # of *LOAD_THERMAL_option_NODE............... 0 +total # of *LOAD_THERMAL_option.................... 0 +total # of *LOAD_THERMAL_LOAD_CURVE................ 0 +total # of *LOAD_THERMAL_TOPAZ .................... 0 +total # of *LOAD_THERMAL_VARIABLE_SHELL_option..... 0 +total # of *LOAD_THERMAL_VARIABLE_BEAM _option..... 0 +total # of *LOAD_VIBRO_ACOUSTIC.................... 0 +total # of *LOAD_VOLUME_LOSS ...................... 0 +total # of *LSO_DOMAIN............................. 0 +total # of *LSO_POINT_SET.......................... 0 +total # of *LSO_TIME_SEQUENCE...................... 0 +total # of *LSO_VARIABLE_GROUP..................... 0 +total # of *MAT_option............................. 2 +total # of *MAT_THERMAL_option..................... 0 +total # of *MAT_NONLOCAL........................... 0 +total # of *NODE................................... 25 +total # of *NODE_MERGE............................. 0 +total # of *NODE_MERGE_TOLERANCE................... 0 +total # of *PART_option card....................... 1 +total # of *PART_ANNEAL_option..................... 0 +total # of *RIGIDWALL_option....................... 1 +total # of *SECTION_option......................... 1 +total # of *SET_2D_SEGMENT......................... 0 +total # of *SET_BEAM............................... 0 +total # of *SET_DISCRETE........................... 0 +total # of *SET_MODE............................... 0 +total # of *SET_NODE_option........................ 1 +total # of *SET_PART............................... 0 +total # of *SET_POINT.............................. 0 +total # of *SET_SEGMENT............................ 0 +total # of *SET_SHELL_option....................... 0 +total # of *SET_SOLID.............................. 0 +total # of *SET_TSHELL............................. 0 +total # of *TERMINATION_BODY....................... 0 +total # of *TERMINATION_DELETED_SHELLS............. 0 +total # of *TERMINATION_DELETED_SOLIDS............. 0 +total # of *TERMINATION_NODE....................... 0 +total # of *TERMINATION_CONTACT.................... 0 +total # of *TITLE.................................. 1 +total # of *USER_INTERFACE_CONTROL................. 0 +total # of *USER_INTERFACE_FRICTION................ 0 +total # of *USER_INTERFACE_FORCES.................. 0 +total # of *USER_INTERFACE_CONDUCTIVITY............ 0 +total # of *USER_LOAD.............................. 0 +total # of *CHANGE_BOUNDARY_CONDITIONS............. 0 +total # of *CHANGE_CONTACT_SMALL_PENETRATION....... 0 +total # of *CHANGE_RIGID_BODY_CONSTRAINTS.......... 0 +total # of *CHANGE_RIGID_BODY_INERTIA.............. 0 +total # of *CHANGE_THERMAL_PARAMETERS.............. 0 +total # of *CHANGE_VELOCITY_ZERO................... 0 +total # of *CHANGE_VELOCITY_RIGID_BODY............. 0 +total # of *DELETE_ALECPL.......................... 0 +total # of *DELETE_CONTACT......................... 0 +total # of *DELETE_CONTACT_2DAUTO.................. 0 +total # of *DELETE_FSI............................. 0 +total # of *DELETE_ENTITY.......................... 0 +total # of *DELETE_ELEMENT_SOLID................... 0 +total # of *DELETE_ELEMENT_BEAM.................... 0 +total # of *DELETE_ELEMENT_SHELL................... 0 +total # of *DELETE_ELEMENT_TSHELL.................. 0 +total # of *DELETE_PART............................ 0 +total # of *RIGID_DEFORMABLE_CONTROL............... 0 +total # of *RIGID_DEFORMABLE_D2R................... 0 +total # of *RIGID_DEFORMABLE_R2D................... 0 +total # of *STRESS_INITIALIZATION.................. 0 + + Memory required to process keyword : 257160 + + LS-DYNA will perform a structural only analysis + + + + SPH Unit Test + code input version =1993 + formats =mlarg + + + + c o n t r o l i n f o r m a t i o n + + CONTROL CARD 1. Model Size-General + + number of materials or property sets........... 2 + + number of nodal+scalar points.................. 29 + + number of merged nodal points.................. 0 + + number of solid elements....................... 0 + + number of beam elements........................ 0 + + number of shell elements....................... 1 + + number of thick shell elements................. 0 + + number of user defined material subroutines.... 0 + + number of material groups tied to solids....... 0 + + number of tracer particles..................... 0 + + number of super elements....................... 0 + + number of solid tetrahedrons with 10 nodes..... 0 + + number of quadratic shell elements............. 0 + + number of shells with extra degrees of freedom. 0 + + number of solids with extra degrees of freedom. 0 + + number of user defined sections................ 0 + + activate sensor capability (inactive=0)........ 0 + + number of user defined solid element types..... 0 + + number of solid interpolation elements......... 0 + + number of user defined shell element types..... 0 + + number of shell interpolation elements......... 0 + + number of constrained nodes for interpolation.. 0 + + consistent mass matrix for user-def elements... 0 + + number of shell nurbs patches.................. 0 + + + CONTROL CARD 2. Model Size-Boundary Conditions + + number of spc nodes............................ 0 + + number of spc coordinates...................... 0 + + number of velocity cards....................... 0 + + number of non-reflecting boundary segments..... 0 + + number of b. c. cards.......................... 0 + + number of b. c. cards with failure............. 0 + + number of box definition for b. c. card........ 0 + + number of nodes/interface for cyclic symmetry.. 0 + + number of rigid bodies with attachment nodes... 0 + + + CONTROL CARD 3. Model Size-Loading + + number of load curves.......................... 0 + + number of nodes for load curve functions....... 0 + + number of curves for entities.................. 0 + + number of concentrated load cards.............. 0 + + number of pressure load cards.................. 0 + + number of nonuniform pressure loads-4 nodes.... 0 + + number of nonuniform pressure loads-6 nodes.... 0 + + number of nonuniform pressure loads-8 nodes.... 0 + + number of generalized body force sets.......... 0 + + number of beam pressure card definitions....... 0 + + number of detonation points.................... 0 + + number of zones for momentum deposition........ 0 + + number of points in density vs. depth curve.... 0 + + number of outflow boundary segments............ 0 + + number of load curve feedback sets............. 0 + + number of pressure load sets with masks........ 0 + + number of spray systems ....................... 0 + + number of initial stress by cross-sections sets 0 + + number of pressure load sets................... 0 + + number of ground motion defintions............. 0 + + number of ground motions specified at nodes.... 0 + + number of ground motions specified at points... 0 + + number of ground motions specified in bin file. 0 + + number of segsets with specified ground motion. 0 + + number of soil-structure interfaces for output. 0 + + number of aero-acoustic load cards............. 0 + + + CONTROL CARD 4. Model Size-Constraints and Contact + + number of rigid wall definitions............... 1 + + number of number of contact definitions........ 0 + + number of number of guided cable contacts...... 0 + + number of shell-solid interfaces............... 0 + + number of tie-breaking slide lines............. 0 + + number of blocks of tied nodes with fracture .. 0 + + number of tied nodal pairs for linking......... 0 + + number of constraint cards..................... 0 + + number of linear constraint equations.......... 0 + + number of 1d slidelines........................ 0 + + number of adaptive constraints................. 0 + + number of ALE smoothing constraints............ 0 + + number of 2d slidelines........................ 0 + + number of 2d automatic contacts................ 0 + + number of part IDs for interior contact........ 0 + + number of beam release sets.................... 0 + + max. number of nodes in any beam release set... 0 + + + CONTROL CARD 5. Model Size-Rigid Body Parameters + + number of rigid body constraint sets........... 0 + + number of rigid body merge cards............... 0 + + number of joint constraints.................... 0 + + number of joint failure definitions............ 0 + + number of joint user force definitions......... 0 + + number of extra node blocks.................... 0 + + number of rigid body inertia definitions....... 0 + + number of geometric contact entities........... 0 + + number of joint stiffness definitions.......... 0 + + number of rigid body stoppers.................. 0 + + joint formulation for rigid bodies............. 0 + eq.0: penalty + eq.1: lagrange multiplier + + generalized stiffness angle update ............ 0 + eq.0: incremental formulation + eq.1: total formulation + + number of flexible bodies...................... 0 + lt.0: stress recovery active + + number of relative damping definitions......... 0 + + flag for reading rigid surface contact input... 0 + eq.0: no rigid surface contact + eq.1: read rigid surface input + + number of Hybrid III dummies .................. 0 + + number of Hybrid III joint modifications ...... 0 + + number of interpolation constraints ........... 0 + + flag for metalforming fast rigid bodies........ 0 + eq.0: full rigid body treatment + eq.1: fast rigid body treatment + + number of prescribed rigid body orientations 0 + + + CONTROL CARD 6. Model Size-Discrete Elements & Seat Belts + + number of spring-damper material types......... 0 + + number of local coordinate systems............. 0 + + number of discrete springs and dampers......... 0 + + number of lumped masses........................ 0 + + number of parts with added mass................ 0 + + number of nodes with mass matrix............... 0 + + number of seat belt materials.................. 0 + + number of seat belt elements................... 0 + + number of 2d seat belt elements................ 0 + + number of slip rings........................... 0 + + number of retractors........................... 0 + + number of sensors.............................. 0 + + number of pretensioners........................ 0 + + number of accelerometers....................... 0 + + number of discrete rotary inertias............. 0 + + number of SPH particles........................ 25 + + number of groups of SPH particles.............. 1 + + + CONTROL CARD 7. Model Size-Output Control + + number of cross section definitions............ 0 + + number of nodal groups for resultant forces.... 0 + + number of interface segments for linking....... 0 + + max. number of segments defining rigid wall.... 0 + + number of power spectrum density databases..... 0 + + + CONTROL CARD 8. Computation Options-Termination + + termination time............................... 0.3500E-01 + + termination cycle.............................. 0 + + reduction factor for minimum time step (TSMIN). 0.0000E+00 + + percent change in energy ratio for termination. 0.0000E+00 + + percent change in total mass for termination... 0.0000E+00 + + number of nodes for displacement termination... 0 + + number of rigid bodies for disp. termination... 0 + + number of conditions for contact termination... 0 + + number of conditions for ldcurve termination... 0 + + ID of sensor_switch for sensor termination... 0 + + + CONTROL CARD 8a. Computation Options-Start + + start time..................................... 0.0000E+00 + + + CONTROL CARD 9. Computation Options-Time Step Size + + initial time step size......................... 0.0000E+00 + + time step scale factor......................... 0.9000E+00 + + time step size calculation for 4-node shells... 0 + eq.0: based on longest element side + eq.1: based on longest element diagonal + eq.2: based on bar wave speed max side + eq.3: based on optimal time step size + estimator + + shell element minimum time step assignment..... 0.0000E+00 + + time step size for mass scaled solution, dt2ms. 0.0000E+00 + lt.0: minimum time step size permitted + + load curve number for maximum timestep......... 0 + + erosion flag for solid and thick shells........ 0 + eq.0: no + eq.1: yes + + option part set ID for eroding solids.......... 0 + eq.0: all solids are checked if eros_flag=1 + gt.0: solids within part set are checked + + limit mass scaling to the first time step...... 0 + eq.0: no + eq.1: yes + + scale factor on initial dt to determine dt2ms.. 0.0000E+00 + + load curve ID for mass scaling ................ 0 + + flag for selective mass scaling................ 0 + eq.0: off + eq.1: on + eq.2: on for part subset + + consistent constraint logical switch........... F + + flag for part set for erosion ................. 0 + eq.0: no + eq.1: yes + + flag for accounting for rotations in sms....... 0.0000E+00 + eq.0.: off (default) + gt.0.: on + implicit_explicit_hybrid part set.............. 0 + + + + CONTROL CARD 10. Computation Options-Loading + + x-ground acceleration.......................... 0 + eq.0: no + eq.1: yes + + y-ground acceleration.......................... 0 + eq.0: no + eq.1: yes + + z-ground acceleration.......................... 0 + eq.0: no + eq.1: yes + + x-angular velocity............................. 0 + eq.0: no + eq.1: yes + + y-angular velocity............................. 0 + eq.0: no + eq.1: yes + + z-angular velocity............................. 0 + eq.0: no + eq.1: yes + + number of materials receiving body forces...... 0 + eq.0: all + eq.n: subset of n materials + + flag for user defined loading subroutine....... 0 + lt.0: magnitude=# of input constants + eq.0: no + eq.1: yes, but no additional input + + explosive initiation option.................... 0 + eq.0: lighting times based on distance + eq.1: lighting times include geometric + effects for wave shapers, etc. + + sub-sea structural analysis option............. 0 + eq.0: off + eq.1: on with 1 point integration + eq.4: on with 4 point integration + contact pressure calculation option............ 0 + eq.0: off (default) + eq.1: on + # of user defined loading set.................. 0 + + + CONTROL CARD 11. Computation Options-Input Control + + initialization of velocities................... 1 + eq.0: velocities are initialized to zero + eq.1: initial velocities are read in + eq.2: all velocities have same input value + eq.3: as 2 but exempted nodes are defined + eq.4: box option + eq.5: generation with arbitrary numbering + eq.6: rotational and translational via IDs + eq.7: option 6 but applied during calculation + + time to apply initial velocites (option 7)..... 0.0000E+00 + + arbitrary node and element numbering flag ..... 1 + + constitute, eqs-of-state, cross-section option. 0 + eq.0: off + eq.1: separate input is required for each + + specified nodal coordinate format.............. e20.0 + + flag for thermodynamic control volume input.... 0 + + overpressure option (eq.0 no, eq.1 yes)....... 0 + + number of part (de) activation sensors......... 0 + + number of rigid body initial velocity sets..... 0 + + jacobian tolerance for type 16 tetrahedron..... 0.0000E+00 + + + + CONTROL CARD 12. Computation Options-Elements + + warped shell angle in deg. for error message... 0.2000E+02 + + iterative plane stress plasticity for shells... 1 + eq.1: vectorized with three iterates + eq.2: nonvectorized iterations as needed + eq.3: noniterative radial return + + Calculation option for F for solid elements.... 0 + eq.0: default, explicit=1, implicit=2 + eq.1: integrate incrementally + eq.2: compute directly + + flag for automatic sorting .................... 0 + eq. 1: on for triangular shells + eq.11: on for triangular shells and solids + eq.10: on for solids (tets and pentas) + + formulation for sorted degenerate tet/pent..... 0 + eq. 0: no sorting required(default) + eq. 1: type 10 tet & type 15 pent + eq. 2: type 10 tet, 1pt pent to type 15 pent, + fully intg pent to type 115 pent + eq. 3: same as 1 & switch elem in messag file + eq. 4: same as 2 & switch elem in messag file + + formulation for sorted trianglar shells ....... 0 + eq. 0: no sorting required(default) + eq. 1: C0 triangle, type 4 + eq. 2: DKT triangle type 17 + + hughes-liu normal computation options.......... -1 + eq.-2: unique nodal fibers + eq.-1: compute normals each cycle + eq.0 : default set to -1 + eq.1 : compute on restart + eq.n : compute on restart + each nth cycle + + thickness modification for membrane strains.... 0 + eq.0: no + eq.1: 4-node shell only + eq.2: 8-node thick shell types 1 & 2 + eq.3: update both 4 & 8 node thickness + eq.4: same as option 1 but the elastic + strains are neglected + + shell part set ID (pids) for thickness update. 0 + lt.0: exclude pids if update option is active + eq.0: include all if update option is active + gt.0: include pids if update option is active + + shell part set ID where type 4 update applies 0 + + shell formulation basis........................ 2 + eq. 1: hughes-liu + eq. 2: belytschko-tsay + eq. 3: bciz + eq. 4: c0-triangular element + eq. 5: membrane element + eq. 6: s/r hughes-liu + eq. 7: s/r co-rotational hughes-liu + eq. 8: belytschko-leviathan shell + eq. 9: fully integrated membrane + eq. 10: belytschko-wong-chiang + eq. 11: fast hughes-liu + eq. 12: 2d plane stress + eq. 13: 2d plane strain + eq. 14: 2d axisymmetric (area wgt) + eq. 15: 2d axisymmetric (volume wgt) + eq. 16: fully integrated element + eq. 17: dkt element + eq. 18: dkq-dkt linear element + eq. 20: assumed strain linear element + eq. 21: assumed strain linear element(5DOF) + eq. 22: linear shear panel element(3DOF) + eq. 23: 8-node quadratic quadrilateral shell + eq. 24: 6-node quadratic triangular shell + eq. 25: belytschko-tsay with + thickness stretch + eq. 26: fully integrated element with + thickness stretch + eq. 27: c0-triangular element with + thickness stretch + eq. 29: cohesive element + eq. 31: 2-d 1-pt. eulerian n-s + eq. 32: 2-d 4-pt. eulerian n-s + eq. 33: 2-d cvfem eulerian n-s + eq. 41: meshfree shell local projection + eq. 42: meshfree shell global projection + eq. 43: meshfree plane strain + eq. 44: meshfree axisymmetric solid + eq. 46: cohesive element + eq. 47: cohesive with shell offsets + eq. 98: interpolation shell element + eq. 99: elastic vibration element + eq. 201: isogeometric nurbs element + ge.1000: user defined (generalized) shell + + # of user specified beam integration rules..... 0 + + max number of integration points reqd (beams) . 0 + + # of user specified shell integration rules.... 0 + + max number of integration points reqd (shells). 0 + + warping stiffness for Belytschko-Tsay shells... 2 + eq.1: Belytschko-Wong-Chiang modification + eq.2: original Belytschko-Tsay + + projection method for warping stiffness........ 0 + eq.0: drill + eq.1: full + + reference configuration ....................... 0 + eq. 0: no + eq. 1: yes, active for all airbags + eq. 2: yes, reference geometry Dt + eq.10: yes, active for foam elements + eq.11: options 1 and 10 active + eq.12: options 2 and 10 active + + contact reference configuration ............... 0 + eq. 0: no + eq. n: n number of reference nodes + + invariant node numbering ...................... 0 + eq.-4 on for both shell and solid elements + except triangular shells + eq.-2 on for shell elements except + triangular shells + eq. 1 off (default) + eq. 2 on for all shell elements + eq. 3 on for solid elements with + anisotropic material + eq. 4 on for all shell elements and solid + elements with anisotropic material + + activation time for reference geometry ........ 0.0000E+00 + + scale factor for shell rotary mass ............ 0.1000E+01 + + integration for shell through thickness ....... 0 + eq.0: Gauss + eq.1: Lobatto + + use laminated shell theory for material ....... 0 + types 22, 54, 55, and 76: + eq.0: no + eq.1: yes for thin shell material types + 22, 54, 55, or 76 + eq.3: yes for all thin shell anisotropic + materials or mixed materials + eq.4: yes for all thick shell anisotropic + materials or mixed materials + eq.5: yes for thick and thin shells + + number of annealed parts ....................... 0 + + number of new part IDs for COMPOSITE option..... 0 + + flag for shell offset vectors ................. 0 + eq. 0: off + eq. 1: on + + flag for offset shell contact surface ......... 0 + eq. 0: off + eq. 1: on + eq. 2: on, but use contact thickness + + number of point constraints between shells .... 0 + + flag for input of beam orientation vectors .... 0 + + flag for input of beam offset vectors ......... 0 + + flag for input of beam warpage scalar nodes.... 0 + + flag for 12-node shell for thermal ............ 0 + + local shell coordinate system in type 6 shell.. 1 + eq. 0: uniform local coordinate system + eq. 1: variable local coordinate system + + Jacobian check on 1 point shells............... 0 + eq. 0: off + eq. 1: on -delete distorted element + eq. 2: on -terminate + eq. n: terminate when n elements are deleted + + Jacobian check on 4 point shells............... 0 + eq. 0: off + eq. 1: on -delete distorted element + eq. 2: on -terminate + eq. n: terminate when n elements are deleted + + part set ID for Jacobian checks................ 0 + + keep contact segment related to failed shell... 0 + eq. 0: off + eq. 1: on + delete free-free shells in Jacobian checks..... 0 + eq. 0: off + eq. 1: on + + part set ID for drill constraint force ........ 0 + scale factor for drill constraint force ....... 0.0000E+00 + + w mode deletion angle in degrees .............. 0.0000E+00 + + stretch ratio deletion (l/l0) ................. 0.0000E+00 + + flag for error exit in case of unwanted + interpolation of inital stresses .............. 0 + + number of shell part IDs for termination...... 0 + eq. 0: inactive + gt. 0: # part IDs where # failed are defined + + number of solid part IDs for termination...... 0 + eq. 0: inactive + gt. 0: # part IDs where # failed are defined + + integration rule for quadratic tetrahedrons.... 4 + eq. 4: 4 point integration formula + eq. 5: 5 point integration formula + + integration rule for quadratic shells.......... 2 + eq. 2: 2 point integration in plane + eq. 3: 3 point integration in plane + + stress output for solid element spotwelds...... 0 + eq. 1: global (default) + eq. 2: local + + # of solid elements with death times........... 0 + + # of beam elements with death times........... 0 + + # of shell elements with death times........... 0 + + # of thick shell elements with death times..... 0 + + # of box definitions for element deletion...... 0 + + # of parts to be annealed...................... 0 + + flag for input of elbow extra scalar nodes..... 0 + + flag for material stochastic variations........ 0 + + number of tailor welded blanks ................ 0 + + number of heat affected zone property sets..... 0 + + flag for loading segments with file option..... 0 + + flag for loading segments FSI link file........ 0 + + + number of solid elements with initial stress .. 0 + + number of sph elements with initial stress .. 0 + + number of beam elements with initial stress .. 0 + + number of shell elements with initial stress .. 0 + + number of shell elements with initial strain .. 0 + + maximum number of tensor data ................. 0 + + maximum number of history variables ........... 0 + + no. of thick shell elems with initial stress .. 0 + + number of solid elements with initial strain .. 0 + + number of solid elements with initial dof...... 0 + + number of nodes with initial geometry.......... 0 + + write nodes with initial geometry.............. 0 + = 0: do not write nodes + = 1: write nodes + + number of discrete element spheres............. 0 + + flag for initial transverse shear stresses .... 0 + = 0: keep transverse shear stresses (default) + = 1: set transverse shear stresses to zero + + number of of thick shells with inital strain... 0 + + + CONTROL CARD 13. Computation Options-Materials + + hourglass formulation.......................... 0 + eq.0 LS-DYNA versions 940 and after + eq.1 LS-DYNA versions 936 and before + + hourglass models + eq.1: standard viscous form + eq.2: flanagan-belytschko viscous form + 1pt volume integration for solids + eq.3: flanagan-belytschko viscous form + exact volume integration for solids + eq.4: flanagan-belytschko stiffness form + 1pt volume integration for solids + eq.5: flanagan-belytschko stiffness form + exact volume integration for solids + eq.6: bindeman-belytschko stiffness form + for 2d and 3d solid elements only + eq.9: puso stiffness form for 3d solid + elements only + + hourglass model (default)...................... 0 + + hourglass coefficient (default)................ 0.0000E+00 + + bulk viscosity type (default).................. 0 + eq.-2: standard +types 2,4,10,16,17 shells+IE + eq.-1: standard +types 2,4,10,16,17 shells + eq.+1: standard + + quadratic bulk viscosity coefficient........... 0.0000E+00 + + linear bulk viscosity coefficient.............. 0.0000E+00 + + bulk viscosity type for beams.................. 0 + eq.+1: standard + eq.+2: standard + IE + + flag for rayleigh damping input................ 0 + eq.0: off (default) + eq.1: on + + flag for rigid/deformable material switching... 1 + eq.1: off (default) + eq.2: on + eq.3: on and automatic switching + + thermal effects option......................... 0 + eq.0: no thermal effects + eq.n: nodal temps scaled by load ftn -n- + eq.-1: coupled thermal mechanical analysis + eq.-2: temperature data input option 2 + eq.-3: thermal solution + eq.-4: Read binary temperature file + eq.-9998: user defined load set temp. input + eq.-9999: temperature data input option 1 + + thermal curve ID used for dynamic relaxation... 0 + + super plastic forming input option............. 0 + eq.0: skip input + eq.1: read superplastic input section + + objective stress update for large Dt........... 0 + eq.0: off (default) + eq.1: on globally + eq.2: on for part subset + + default contact parameters input option........ 0 + eq.0: no + eq.1: yes + + number of reinforcement cards for mat 84&85.... 0 + + output interval for aea_crack database......... 0.0000E+00 + + number of non local materials.................. 0 + + neighbours arrays oversized of (%)............. 0 + + number of parts defined for adaptive failure... 0 + + number of elements with specified temperature.. 0 + + number of parts with spotweld rupture stress... 0 + + number of parts with spotweld rupture parametr. 0 + + number of spotweld lists....................... 0 + + number of rows of opt=10 spot weld failure data 0 + + + CONTROL CARD 14. Computation Options-Damping + + load curve specifying system damping........... 0 + eq.-1: system damping by material + eq. n: load curve n defines system damping + + optional constant for system damping........... 0.0000E+00 + + system damping scale factor for x-translation.. 0.1000E+01 + + system damping scale factor for y-translation.. 0.1000E+01 + + system damping scale factor for z-translation.. 0.1000E+01 + + system damping scale factor for x-rotation..... 0.1000E+01 + + system damping scale factor for y-rotation..... 0.1000E+01 + + system damping scale factor for z-rotation..... 0.1000E+01 + + stress initialization flag .................... 0 + eq.-1: dynamic relaxation (debug option) + eq.0: off + eq.1: dynamic relaxation + eq.2: deformed geometry + eq.3: dynamic relaxation with part set ID + eq.5: initialize implicitly + eq.-999:off-not activated by load curves + + convergence check interval (dynamic relaxation) 250 + + convergence tolerance for dynamic relaxation... 0.1000E-02 + + dynamic relaxation factor...................... 0.9950E+00 + + termination time for dynamic relaxation........ 0.0000E+00 + eq.0.0: convergence terminates relaxation + gt.0.0: termination at specified time + unless convergence is attained + + scale factor for dyn relax time step........... 0.9000E+00 + + automatic determination of dr factors.......... 0 + eq.0: off (default) + eq.1: on + + convergence tolerance for above option......... 0.0000E+00 + + active part set ID for dynamic relaxation ..... 0 + + + + CONTROL CARD 15. Computation Options-Contact + + scale factor for contact interface penalties... 0.1000E+00 + + scale factor for rigid wall penalties.......... 0.0000E+00 + + flag to activate MADYMO contact coupling....... 0 + eq.0: inactive + eq.1: active + + track initial penetrations in auto contacts.... 0 + eq.0: no, move node to contact surface + eq.1: yes, initial penetrations remain + + ignore initial separations in tied contacts.... 0 + eq.0: no, eliminate gaps most accurate + eq.1: yes, may lock rotations + + contact initial penetration check option....... 1 + eq.1: off (default) + eq.2: on + + thickness considered in type 3, 5 or 10 contact 0 + eq.0: off + eq.1: on, but rigid bodies excluded + eq.2: on, rigid bodies are included + + penalty stiffness option....................... 1 + eq.1: minimum master/slave value + eq.2: master segment stiffness (old way) + eq.3: slave node stiffness + eq.4: slave node area/mass weighted + eq.5: like 4 but k proportional to 1/thick + + thickness changes considered in type 4 contact. 0 + eq.0: no + eq.1: yes + + automatic reorientation option................. 1 + eq.1: on for automatic contact definitions + eq.2: on + eq.3: off + + memory allocation-user contact surface control 0 + gt.0: memory per interface passed to user + + memory allocation-user contact surface frict... 0 + gt.0: memory per interface passed to user + + number of time steps between contact searching. 0 + eq.0: LS-DYNA chooses value + + intermittent searching in type 3 contact....... 0 + eq.0: off (default) + eq.1: on + + release factor for extra searching option...... 0.4000E+01 + + treatment of nodes in eroding contact.......... 0 + eq.0: delete from calculation + eq.1: keep nodes of eroded solids + eq.2: keep nodes of eroded solids & shells + + calculation of frictional sliding energy....... 0 + eq.0: do not calculate + eq.1: calculate + + shell thickness in single surface contact...... 0 + eq.0: use characteristic shell dimension + eq.1: use actual shell thickness + + time step size override for eroding contact.... 0 + eq.0: contact time size may control dt + eq.1: contact is not considered for dt + + number of automatic positioning definitions.... 0 + + print slave node/segment in spotweld contact... 0 + eq.0: no + eq.1: yes, in D3HSP file + + option for unconstrained spotweld node/face.... 0 + eq.0: ignore + eq.1: terminate + eq.2: delete weld and continue + + delete spotweld if tied to failed shell........ 0 + eq.0: no + eq.1: yes + + number of friction table definitions........... 0 + + read in friction table for automatic contacts.. 0 + eq.0: no + ne.0: number of part pair defined for table + + read in spotweld failure table................. 0 + eq.0: no + ne.0: number of part pair defined for table + + contact thickness scaling option for welds..... 0.0000E+00 + eq.0.0: inactive + gt.0.0: scale factor on thickness + + beam spotweld radius scale factor for thinning. 0.0000E+00 + eq.0.0: inactive + gt.0.0: scale factor on radius + + read in smooth contact flags................... 0 + eq.0: no + eq.1: yes + Warning: in Shared Memory Program smooth option only + available for Forming type contact + + flag for eliminating faces on symmetry planes.. 0 + eq.0: use all faces + eq.1: delete faces from contact + + spotweld tension scaling load curve............ 0 + spotweld compression scaling load curve........ 0 + spotweld direction scaling table.(tension)..... 0 + spotweld direction scaling table (shear) ..... 0 + eq.0: table for tension scaling is used + spotweld print flag (on=1)..................... 0 + + number of contact volume definitions........... 0 + + flag to use one way node to surface erosion.... 0 + + flag for implicit rigidwall gap stiffness...... 1 + + eq.1: add initial gap stiffness + eq.2: do not add gap stiffness + + death time for gap stiffness................... 0.0000E+00 + + penalty scale factor for rigid walls........... 0.1000E+01 + + flag for covariant contact formulation......... 0 + + eq.0: covariant formulation not used + eq.1: covariant formulation used + + flag for offsetting thick thermal contact + surfaces in the thermal contacts............... 0 + + eq.0: no offset, if thickness is not included + contact will act on shell mid-surface + eq.1: offsets are applied so that contact + always act on the shell outer surfaces + + flag for shell segment edge shape.............. 0 + eq.0: shell edges assumed round (default) + eq.1: shell edges assumed square + + stiffness calculation for segment based contact 0 + eq.0: use material density (default) + eq.1: use nodal masses + + flag for consistent thermal contact algorithm.. 1 + lt.0: conduction evenly distributed (pre-R4) + eq.1: conduction weighted by shape functions, + reduced integration (default) + eq.2: conduction weighted by shape functions, + full integration + + flag for optional tied interface update ....... 0 + eq.0: integrate accelerations for v and u + eq.1: differentiate u to obtain v and a + + flag for overlapping force transducers......... 0 + eq.0: forces applied to first found (faster) + eq.1: forces applied to all transducers + + scale factor for contact interface mass scaling 0.0000E+00 + shell thickness scale factor for rigidwall .... 0.0000E+00 + flag of contact involving isogeometric ele .... 0 + eq.0: interp. node vs. interp. facet + eq.1: interp. node vs. isogeometric element + print out penetration info for mortar contact.. 0 + scale factor for contact pressure on thickness + shells......................................... 0.1000E+01 + + + CONTROL CARD 16. Computation Options-Parallel + + number of cpus for parallel computations....... 2 + + parallel right hand side assembly.............. 0 + eq.0: on (default) + eq.1: off + + flag for automatic subcycling.................. 0 + eq.0: off (default) + eq.1: on + + number of part IDs for mass scaled subcycling.. 0 + + flag for repeatability in parallel solution.... 2 + eq.1: on (ordered RHS summation-slower) + eq.2: off (default) + + use memory to parallelize repeatability option. 0 + eq.0: off + eq.1: on + maximum time step factor for subcycling........ 0 + + + CONTROL CARD 17. Computation Options-Coupling + + length conversion factor coupling.............. 0.1000E+01 + + time conversion factor coupling................ 0.1000E+01 + + force conversion factor coupling............... 0.1000E+01 + + material repositioning flag.................... 0 + eq.0: off + eq.1: input data defines repositioning + eq.2: no repositioning of defined nodes + + Flag to flip X-coordinates..................... 0 + + Flag to flip Y-coordinates..................... 0 + + Flag to flip Z-coordinates..................... 0 + + Idle time for LS-DYNA.......................... 0.0000E+00 + + Implicit coupling for springback............... 0 + eq.0: off (default) + eq.1: on + eq.2: seamless springback + + DYNAIN output format........................... 0 + eq. 0: ascii + eq. 1: binary + eq. 2: ascii and binary + eq.10: ascii (large) + eq.11: binary (large internal ASCII) + eq.12: ascii and binary (large) + + Mismatched acoustic coupling input flag........ 0 + eq.0: off + eq.1: on + + Two sided acoustic coupling input flag......... 0 + eq.0: off + eq.1: on + + Coupling with USA.............................. 0 + eq.0: off (default) + eq.1: on + + Number of steps for CAL3D/MADYMO3D subcycling.. 1 + + Number of MCOL coupled rigid bodies............ 0 + + Number of vehicles to be initialized........... 0 + + Coupling with CFD.............................. 0 + eq.0: off (default) + eq.1: FAST3D + eq.2: boundary element method + + + CONTROL CARD 18. Computation Options-Output Control + + printout of node, element, velocity input data. 0 + eq.0: on + eq.1: off + + time zero printout of element time step size... 0 + eq.0: no printout + eq.1: print dt for each element at t=0 + + problem status report interval in printer file. 100 + + number of cycles between restart dumps.........99999999 + + number of cycles between running restart dumps.99999999 + + number of files to rewrite running restart .... 1 + + node and element printout suppression.......... 0 + eq.1: nodal data is not echoed + eq.2: element data is not echoed + eq.3: node and element data is not echoed + debug information in messag file option........ 0 + eq.0: no + eq.1: yes + update of beam reference nodes................. 0 + eq.0: off + eq.1: on-unique reference nodes required + averaged acceleration-print/time history files. 0 + eq.0: no average (default) + eq.1: averaged between output intervals + eq.2: user defined filtering + output interval for interface file............. 0.4000E-03 + default print flag for the RBDOUT/MATSUM files 0 + eq.0: RBDOUT and MATSUM + eq.1: RBDOUT only + eq.2: MATSUM only + eq.3: no output + include eroded and lumped mass in MATSUM ...... 0 + eq.0: no + eq.1: yes + include 10-node connectivities in D3PLOT ...... 2 + eq.1: yes + eq.2: no + write spring forward database at termination... 0 + eq.0: no + eq.1: include all deformable nodes + eq.2: include nodes of material subset + d3plot and d3thdt binary output format......... 0 + eq.0 default + eq.1 32ieee + flush output file interval..................... 5000 + output interval for d3part database............ 0.0000E+00 + interval via load curve for part database...... 0 + number of part blocks.......................... 0 + Maximum number of messages..................... 0 + Print flag for digitized curve data............ 0 + Print info. of 1d belt created for 2d belt..... 0 + ELOUT shell output coordinate system flag...... 0 + eq.0 default + eq.1 local element coordinate system + eq.2 global coordinate sytstem + number of parts removed from d3plot ........... 0 + number of levels of timing at termination ..... 2 + max frequency of element failure summaries..... 1 + + + CONTROL CARD 19. Computation Options-Output Energy + + hourglass energy calculation................... 2 + eq.1: off (default) + eq.2: on + + rigid wall energy calculations................. 2 + eq.1: off (default) + eq.2: on + + contact energy calculation..................... 2 + eq.1: off + eq.2: on + + flag for rayleigh damping energy calculations.. 0 + eq.1: off (default) + eq.2: on + + flag for material energy in D3THDT file........ 2 + eq.1: off + eq.2: on (default) + + + CONTROL CARD 20. Computation Options-LS-POST Database + + time step between dumps of complete state data. 0.4000E-02 + + output interval for interface force database... 0.4000E-02 + + time step between dumps of time history data... 0.0000E+00 + + number of nodal printout blocks................ 0 + + number of solid element printout blocks........ 0 + + number of beam element printout blocks......... 0 + + number of discrete element printout blocks..... 0 + + number of seatbelt element printout blocks..... 0 + + number of shell element printout blocks........ 0 + + number of thick shell element printout blocks.. 0 + + load curve-interval between state data dumps... 0 + + behavior of state data dump curve.............. 1 + eq.1: load curve value added to current time + eq.2: plot time T=current t+curve at T + eq.3: plot at each ordinate point + + load curve-interval between force data dumps... 0 + + load curve-interval between history data dumps. 0 + + flag, user output into shell resultant vector.. 0 + eq.1: off (default) + eq.2: on, user subroutine is called + + number of subsystems for SSSTAT file .......... 0 + + behavior of intfor data curve.................. 1 + eq.1: load curve value added to current time + eq.2: plot time T=current t+curve at T + eq.3: plot at each ordinate point + + + CONTROL CARD 21. Computation Options LS-POST Database + + flag to write ls-post database during dyn rel.. 0 + eq.0: no database write (default) + eq.1: write database at convergence check + eq.n: write database at nth check + + number of extra history variables for solids... 0 + + number of integration points output/solid ..... 1 + + number of extra history var/int.pt for shells.. 0 + + number of integration points output/shell ..... 3 + lt.0: also output 4 points in plane + + flag for including strain tensor in database... 0 + eq.0: exclude (default) + eq.1: include strains (solid and shells) + + flag for including stress tensor in database... 1 + eq.1: include (default) + eq.2: exclude + + flag for including effective plastic strain.... 1 + eq.1: include (default) + eq.2: exclude + + flag for including shell resultants............ 1 + eq.1: include (default) + eq.2: exclude + + flag for including shell energy and thickness.. 1 + eq.1: include (default) + eq.2: exclude + + every state is written to a separate file...... 0 + eq.0: off (default) + eq.1: only one state per plotfile + + composite material stress output .............. 0 + eq.-1: same as 1, but fiber stress and strain + are engineering measured in material + 34 + eq. 0: global + eq. 1: local + eq. 2: local, additional information + output in place of shell resultants + + number of integration points output/beam ...... 0 + + data compression to eliminate rigid body data.. 1 + nodal velocities, and nodal accelerations + eq.1: off + eq.2: on -rigid bodies + eq.3: off-rigid bodies-on nodal data + eq.4: on -rigid bodies-on nodal data + + output shell element hourglass energy.......... 1 + eq.1: off + eq.2: on + + output shell element dt, mass, added mass...... 1 + eq.1: off + eq.2: output dt + eq.3: output mass + + peak pressure flag............................. 0 + eq.1: on + + filter parameter............................... 0.0000E+00 + + flag for solid element additional output....... 0 + eq.1: output 3 additional variables + eq.2: output 5 additional variables + + flag for scaled mass output to the d3plot file. 0 + eq.1: output mass increment + eq.2: output percentage increase + + flag for thermal data.......................... 1 + eq.0 or 1: output temperature + eq.2: output temperature and flux + eq.3: output temp, flux, and thick shell temps + + flag for including stress tensor at int. point 0 + eq.0: exclude (default) + eq.1: include stress (solid and shells) + + flag for including stress tensor at nodes ..... 0 + eq.0: exclude (default) + eq.1: include local stress (solid and shell) + eq.2: include global stress (solid and shell) + + flag for including strain tensor at int. point 0 + eq.0: exclude (default) + eq.1: include strains (solid and shells) + + flag for including strain tensor at nodes ..... 0 + eq.0: exclude (default) + eq.1: include local strain (solid and shell) + eq.2: include global strain (solid and shell) + output interval for blast force database....... 0.0000E+00 + lt.0: interval specified by load curve + + + CONTROL CARD 22. Computation Options-ASCII Output I + + output interval for cross section forces....... 0.0000E+00 + output interval for rigid wall forces ......... 0.4000E-03 + output interval for nodal print blocks......... 0.0000E+00 + output interval for element print blocks....... 0.0000E+00 + output interval for global/subsystem statistics 0.4000E-03 + output interval for discrete elements.......... 0.0000E+00 + output interval for material summaries......... 0.4000E-03 + output interval for nodal interface forces..... 0.0000E+00 + output mass properties in subsystem statistics. 0 + output mass properties in global statistics.... 0 + additional history variables output-solids..... 0 + additional history variables output-shells..... 0 + additional history variables output-tshells.... 0 + additional history variables output-beams...... 0 + + + + CONTROL CARD 23. Computation Options-ASCII Output II + + output interval for resultant interface forces. 0.4000E-03 + output interval for smug nodal data............ 0.0000E+00 + output interval for sp constraint forces....... 0.0000E+00 + output interval for nodal constraint forces.... 0.0000E+00 + output interval for airbag statistics.......... 0.0000E+00 + output interval for avs filter................. 0.0000E+00 + output interval for nodal force groups......... 0.0000E+00 + output interval for b.c. forces and energy .... 0.0000E+00 + + + + CONTROL CARD 24. Computation Options-ASCII Output III + + output interval for rigid body data............ 0.0000E+00 + output interval for geometric contact entities. 0.0000E+00 + output interval for mpgs database............. 0.0000E+00 + output interval for movie database............. 0.0000E+00 + output interval for interface energies......... 0.4000E-03 + output interval for seatbelt response.......... 0.0000E+00 + output interval for joint forces............... 0.0000E+00 + output interval for tracer particles........... 0.0000E+00 + output interval for discrete beam data......... 0.0000E+00 + output type for discrete beam data ............ 0 + curve id for discrete beam data ............... 0 + option for ascii output time for discrete beam. 0 + + output interval for pulley element data........ 0.0000E+00 + output type for pulley element data ........... 0 + curve id for pulley element data .............. 0 + option for ascii output time for pulley element 0 + + + + CONTROL CARD 25. ALE 1st card + + Default continuum treatment.................... 0 + eq.1: Lagrangian (default) + eq.2: Eulerian + eq.3: Arbitrary Lagrangian Eulerian + eq.4: Eulerian Ambient + + Number of cycles between rezones............... 0 + + Advection formulation.......................... 0 + eq.1: Donor Cell + HIS + eq.2: Van Leer + HIS (default) + + Relaxation factor 1 (simple average)........... -0.1000E+01 + + Relaxation factor 2 (volume weighting)......... 0.0000E+00 + + Relaxation factor 3 (isoparametric)............ 0.0000E+00 + + Relaxation factor 4 (equipotential)............ 0.0000E+00 + + Relaxation factor 5 (equilibrium).............. 0.0000E+00 + + Output interval for euler statistics........... 0.0000E+00 + + + CONTROL CARD 26. ALE 2nd card + + time to begin rezoning......................... 0.0000E+00 + + time to end rezoning........................... 0.0000E+00 + + SALE advection factor.......................... 0.0000E+00 + + number of void materials....................... 0 + + Void factor.................................... 0.1000E-05 + + Automatic euler boundary condition flag........ 0.0000E+00 + eq.0: Off. + eq.1: On with stick condition. + eq.2: On with slip condition. + + Number of non-interacting Euler materials...... 0 + + Number of multi-material Euler groups.......... 0 + + Reference pressure............................. 0.0000E+00 + + Pressure equilibrium........................... 0 + eq.0: Off + eq.1: On + Number of parts considered in ALE convection... 0 + + Number of cycles between ALE coupling.......... 1 + + Number of cycles between ALE bucket sort....... 50 + + Number of ALE Multi-material group switching... 0 + + Number of ALE mixing length.................... 0 + + Number of ALE coupling to nodes ............... 0 + + Number of ALE essential boundaries ............ 0 + + + CPM output format.............................. 11 + eq.11: Version 3 (full output) + eq.21: Version 4 (full output) + eq.22: (coordinates) + eq.23: (summary) + # of CPM airbag interaction.................... 0 + + # of cycle for CPM repartition................. 5 + CPM time step control.......................... 0 + eq.0: no control + eq.1: set CPM timestep size as 1 usec + + + CONTROL CARD 37. SPH 1st card + + Sort frequency................................. 1 + + Box activation................................. 0 + + First option................................... 0.1000E+11 + + Space dimension................................ 2 + + Memory allocation for neighbors MEMORY......... 150 + allocation type:........................ DYNAMIC + + Particle approximation......................... 0 + eq.0: Standard gather form (Lacome-Vila 1998) + eq.1: Renormalization (Ben Moussa-Vila 1998) + eq.2: Symmetric formulation (Benz 1989) + eq.3: Symmetric renormalization (Libersky 1993) + eq.4: Elliptic smoothing length + eq.5: Fluid formulation + eq.6: Renormalized fluid formulation + eq.7: Total Lagrangian formulation + eq.8: Renormalized Total Lagrangian formulation + + Start time of SPH analysis..................... 0.0000E+00 + + Maximum velocity............................... 0.1000E+16 + + Contact definition between SPH parts........... 0 + eq.0: Approximation is computed + eq.1: Approximation is not computed + + Time derivative for smoothing length........... 0 + Initial smooth length computation option....... 0 + Display options for SPH particles.............. 0 + Erosion control option for SPH particles....... 0 + Contact treatment for deactivated particles.... 0 + eq.0: Contact remains active + eq.1: Contact becomes inactive + + Artificial viscosity for SPH particles......... 0 + eq.0: Monaghan type bulk viscosity (change + to bulk coefficents recommended) + eq.1: Solid elements type bulk viscosity + + + + CONTROL CARD 38. SPH group number............. 1 + + Number of particles............................ 25 + + Number of material............................. 101 + + Smoothing length constant...................... 0.1300E+01 + + Minimum smoothing length ...................... 0.2000E+00 + + Maximum smoothing length ...................... 0.2000E+01 + + Initial smoothing length ...................... 0.0000E+00 + eq.0: calculated by LS-DYNA + + Death time for SPH material.................... 0.1000E+21 + + Start time for SPH material.................... 0.0000E+00 + + + + + CONTROL CARD 50. EFG + + ispline ....................................... 0 + + idila.......................................... 0 + + inint.......................................... 0 + + iefgs.......................................... 0 + + intfs.......................................... 0 + + + + p a r t d e f i n i t i o n s + + material type + eq.1 isotropic + eq.2 orthotropic + eq.3 elastoplastic ( von mises ) + eq.4 thermo-elastic-plastic + eq.5 soil and crushable foam model + eq.6 viscoelastic model + eq.7 blatz-ko finite elastic rubber + eq.8 high explosive model + eq.9 null material + eq.10 hydrodynamic - elastic-plastic + eq.11 steinberg - guinan model + eq.12 isotropic elastic-plastic + eq.13 elastic-plastic with failure + eq.14 crushable foam with failure + eq.15 johnson/cook plasticity model + eq.16 pseudo tensor geological model + eq.17 elastoplastic with fracture + eq.18 power law isotropic plasticity + eq.19 strainrate sensitive plasticity + eq.20 rigid material + eq.21 thermal orthotropic(12 constants) + eq.22 composite material damage model + eq.23 thermal orthotropic(12 curves) + eq.24 piecewise linear plasticity + eq.25 soil cap model by taylor + eq.26 crushable metallic honeycomb + eq.27 hyperelastic mooney-rivlin + eq.28 shell/beam resultant plasticity + eq.29 beam resultant force limited + eq.30 shape-memory alloy + eq.31 frazer-nash rubber model + eq.32 safety glass + eq.33 barlat's anisotropic plasticity + eq.34 fabric + eq.35 elastoplastic (green-naghdi rate) + eq.36 barlat's 3-parameter plasticity + eq.37 anisotropic plasticity model + eq.38 blatz-ko finite elastic foam + eq.39 fld anisotropic plasticity + eq.40 nonlinear orthotropic elastic + eq.41-50 user material models + eq.51 bammann plasticity model + eq.52 sandia damage model + eq.53 crushable cellular foam + eq.54 composite damage model(hashin) + eq.55 composite damage model(tsai-wu) + eq.57 low density urethane foam + eq.58 laminated composite fabric + eq.59 composite failure + eq.60 viscous glass model model + eq.61 maxwell/kelvin viscoelastic + eq.62 viscous foam model + eq.63 crushable foam model + eq.64 rate sensitive powerlaw plasticity + eq.65 modified armstrong-zerrilli model + eq.66 elastic resultant beams + eq.67 nonlinear elastic via load curves + eq.68 plastic resultant via load curves + eq.69 sid impact dummy damper + eq.70 hydraulic/gas damper + eq.71 cable + eq.72 k & c concrete damage + eq.73 low density viscous foam + eq.74 elastic spring discrete beam + eq.75 bilkhu/dubois crushable foam + eq.76 linear viscoelastic + eq.77 general hyperelastic/ogden + eq.78 soil/concrete + eq.79 hysteretic soil + eq.80 ramberg-osgood + eq.81 plastic damage model + eq.82 plastic orthotropic damage model + eq.83 fu-chang rate sensitive foam model + eq.84 rs strainrate sensitive concrete + eq.85 reinforced concrete (aea winfrith, 1990) + eq.86 orthotropic viscoelastic + eq.87 cellular viscoelastic rubber + eq.88 material threshold stress (mts) + eq.89 plasticity polymer + eq.90 acoustic media + eq.91 hyperelastic soft tissue + eq.92 visco-hyperelastic soft tissue + eq.93 elastic 6-dof spring + eq.94 inelastic spring discrete beam + eq.95 inelastic 6-dof spring + eq.96 brittle damage + eq.97 general joint discrete beam + eq.98 simplified johnson cook + eq.99 simplified johnson cook with damage + eq.100 spotweld material + eq.101 ge rate sensitive plasticity + eq.102 inverse hyperbolic sine + eq.103 viscoplastic model (ntnu, 1996) + eq.104 damage model 1 (ntnu, 1997) + eq.105 damage model 2 (ntnu, 1997) + eq.106 elastic viscoplastic thermal + eq.107 modified johnson cook + eq.108 orthotropic elastic plastic + eq.110 johnson/holmquist ceramics + eq.111 johnson/holmquist concrete + eq.112 finite elastic strain plasticity + eq.113 trip for austenitic stainless + eq.114 layered piecewise linear plasticity + eq.115 unified creep + eq.116 composite lay up + eq.117 composite matrix + eq.118 composite direct + eq.119 general nonlinear 6dof discrete beam + eq.120 gurson + eq.121 general nonlinear 1dof discrete beam + eq.122 hill 3r + eq.123 modified piecewise linear plasticity + eq.124 compression-tension plasticity + eq.125 yoshida kinematic plasticity model + eq.126 crushable metallic honeycomb + eq.127 arruda-boyce hyper-viscoelastic + eq.128 heart tissue + eq.129 lung hyper-viscoelastic + eq.130 special orthotropic + eq.131 tno isotropic smeared crack model + eq.132 tno orthotropic smeared crack model + eq.133 barlat yld2000 + eq.135 wtm/stm + eq.136 orthotropic vegter model + eq.137 anisotropic ito-goya model + eq.139 modified resultant beam force limited + eq.140 vacuum + eq.141 rate sensitive polymer + eq.142 anisotropic crushable foam + eq.143 aptek orthotropic wood + eq.144 pitzer crushable foam + eq.145 continuous surface cap with damage + eq.146 1dof generalized spring + eq.147 fhwa soil + eq.148 gas mixture + eq.150 cfd - constant properties + eq.152 hyperbolic tangent thermal + eq.153 damage model 3 + eq.154 deshpande fleck foam model + eq.155 compression-tension eos model + eq.156 muscle model + eq.157 anisotropic elastic plastic + eq.158 rate sensitive composite fabric + eq.159 continuous surface cap + eq.161 composite msc + eq.162 composite dmg msc + eq.163 modified crushable foam + eq.164 brain linear viscoelastic + eq.165 plastic nonlinear kinematic + eq.166 moment curvature beam + eq.167 mccormick + eq.168 polymer + eq.169 arup adhesive + eq.170 resultant anisotropic + eq.171 steel concentric brace + eq.172 concrete ec2 + eq.173 mohr couloumb + eq.174 rc beam + eq.176 quasilinear viscoelastic + eq.177 hill foam + eq.178 viscoelastic hill foam + eq.179 low density synthetic foam + eq.180 low density synthetic foam ortho + eq.181 simplified rubber model + eq.182 viscoelastic plastic model + eq.187 semi-analytical model for polymers + eq.188 thermo elastic viscoplastic creep + eq.189 anisotropic thermo elastic + eq.190 barlat 3-parameter fld plasticity + eq.191 seismic beam + eq.192 soil brick + eq.193 drucker prager + eq.194 rc shear wall + eq.195 concrete beam + eq.196 general spring discrete beam + eq.197 seismic isolator + eq.198 jointed rock + eq.202 steel EC3 + eq.203 hysteretic reinforcement + eq.205 discrete beam surface contact + eq.206 Park Ang beam + eq.208 bolt beam + eq.213 awg composite damage + eq.214 dry fabric + eq.219 codam2 + eq.220 rigid material discrete particles + eq.221 orthotropic simplified damage + eq.222 genoa material for laminates + eq.223 orthotropic advanced damage + eq.224 tabulated johnson cook + eq.225 viscoplastic mixed hardening + eq.228 tabulated johnson cook aniso + eq.230 elastic pml + eq.231 acoustic pml + eq.232 biot hysteretic + eq.233 cazacu barlat + eq.234 viscoelastic loose fabric + eq.235 micromechanics dry fabric + eq.236 silicon carbid coating on RCC + eq.237 hysteretic pml + eq.242 barlat yld2000 Yoshida hardening + eq.243 hill 90 + eq.244 ultra high strength steel + eq.251 tailored properties + eq.252 toughened adhesive polymer + eq.255 piecewise linear plastic thermal + eq.256 amorphous solids finite stain + eq.261 laminated fracture daimler pinho + eq.262 laminated fracture daimler camanho + eq.266 tissue dispersed + eq.267 eight chain rubber + eq.269 bergstrom-boyce rubber model + eq.270 computational welding mechanics model + eq.271 powder compaction model + eq.272 RHT concrete + eq.273 CDPM concrete + eq.274 paper + equation-of-state types + eq.1 linear polynomial + eq.2 jwl high explosive + eq.3 sack tuesday high explosive + eq.4 gruneisen + eq.5 ratio of polynomials + eq.6 linear polynomial with source + eq.7 initiation and reaction in he + eq.8 compaction + eq.9 tabulated + eq.11 tensor pore collapse + eq.14 jwlb high explosive + eq.15 one-dimensional gasket + eq.16 mie-gruneisen with p-alpha + hourglass models + eq.1 viscous + eq.2 flanagan-belytschko viscous form + eq.3 full flanagan-belytschko viscous form + (constant stress solid elements) + eq.4 flanagan-belytschko stiffness form + eq.5 full flanagan-belytschko stiffness form + eq.6 bindeman-belytschko stiffness form + (solid 2d and 3d elements) + eq.7 linear total strain stiffness form + (solid 2d and 3d elements) + eq.9 puso stiffness form (solid 3d elements) + eq.10 cosserat total strain stiffness form + (solid 3d elements) + bulk viscosity models + eq.1 standard + defaults + hourglass model....................... 2 + hourglass coefficient................. 1.00000E-01 + bulk viscosity type................... 1 + quadratic bulk viscosity coefficient.. 1.50000E+00 + linear bulk viscosity coefficient..... 6.00000E-02 + + *********************************************************************** + + + + + part id ..................... 101 + section id ..................... 101 + material id ..................... 1 + section title .................. + + material title .................. + + material type .............. 3 + equation-of-state type ..... 0 + hourglass type ............. 2 + bulk viscosity type ........ 1 + + density .......................... = 2.71000E-03 + hourglass coefficient ............ = 1.00000E-01 + quadratic bulk viscosity ......... = 1.50000E+00 + linear bulk viscosity ............ = 6.00000E-02 + element type ..................... = 0 + eq.0: 4, 6, 8, 10-node solid element or SPH element + eq.1: 2-node beam or truss or 2D shell element + eq.2: 3, 4-node membrane/shell or 2D continuum element + eq.3: 8-node thick shell element + + flag for bulk viscosity in shells. = 0 + flag for rbdout/matsum output ... = 0 + eq.0: rbdout and matsum + eq.1: rbdout only + eq.2: matsum only + eq.3: no output + static coefficient of friction ... = 0.00000E+00 + kinetic coefficient of friction... = 0.00000E+00 + exponential decay coefficient .... = 0.00000E+00 + viscous friction coefficient ..... = 0.00000E+00 + optional contact thickness ....... = 0.00000E+00 + optional thickness scale factor... = 0.00000E+00 + local penalty scale factor........ = 0.00000E+00 + flag for adaptive remeshing ...... = 0 + eq.0: inactive + eq.1: h-adaptive only + eq.2: r-adaptive only + rayleigh damping coefficient...... = 0.00000E+00 + e ................................ = 6.89000E+04 + vnu .............................. = 3.30000E-01 + yield ............................ = 1.17000E+02 + e (harden) ....................... = 6.80000E+00 + hardening parmeter ............... = 1.00000E+00 + strainrate parameter, c .......... = 0.00000E+00 + strainrate parameter, p .......... = 0.00000E+00 + formulation for rate effects ..... = 0.00000E+00 + eq.0.0: default + eq.1.0: viscoplastic + failure strain for erosion........ = 0.00000E+00 + solid formulation ............... = 1 + eq.-2: 8 point integration-3dof/node + for poor aspect ratio elements + eq.-1: 8 point integration-3dof/node + for poor aspect ratio elements + (efficient variant of -2 but + prone to some hourglassing) + eq. 1: 1 point integration + eq. 2: 8 point integration-3dof/node + eq. 3: 14 point integration-6dof/node + eq. 4: 5 point tetrahedron-6dof/node + eq. 5: 1 point ale + eq. 6: 1 point eulerian + eq. 7: 1 point eulerian ambient + eq. 8: 1 point acoustic + eq. 9: 1 point corotational + eq.10: 1 point tetrahedron + eq.11: multi-material eulerian + eq.12: eulerian with void + eq.13: nodal pressure tetrahedron + eq.14: 8 point acoustic + eq.15: 2 point pentahedron + eq.16: 10-node quadratic tetrahedron + eq.17: 10-node composite tetrahedron + eq.18: linear static element + eq.19: 8-node 2x2 cohesive + eq.20: 8-node 2x2 cohesive with offsets for shells + eq.21: 6-node 1x1 cohesive + eq.22: 6-node 1x1 cohesive with offsets for shells + eq.41: efg 3d + eq.42: efg 3d for 4-noded background + eq.99: elastic vibration element + corotational local coord. ........ = 0 + eq. 0: not requested + eq. 1: requested + + *********************************************************************** + + + null shells for visualization + + part id ..................... 1 + section id ..................... -12345677 + material id ..................... 0 + section title .................. + + material title .................. + + material type .............. 9 + equation-of-state type ..... 0 + hourglass type ............. 2 + bulk viscosity type ........ 1 + + density .......................... = 1.30000E-13 + hourglass coefficient (membrane).. = 1.00000E-01 + hourglass coefficient (rotation).. = 1.00000E-01 + hourglass coefficient (warping ).. = 1.00000E-01 + quadratic bulk viscosity ......... = 1.50000E+00 + linear bulk viscosity ............ = 6.00000E-02 + element type ..................... = 2 + eq.0: 4, 6, 8, 10-node solid element or SPH element + eq.1: 2-node beam or truss or 2D shell element + eq.2: 3, 4-node membrane/shell or 2D continuum element + eq.3: 8-node thick shell element + + flag for bulk viscosity in shells. = 0 + flag for rbdout/matsum output ... = 0 + eq.0: rbdout and matsum + eq.1: rbdout only + eq.2: matsum only + eq.3: no output + static coefficient of friction ... = 0.00000E+00 + kinetic coefficient of friction... = 0.00000E+00 + exponential decay coefficient .... = 0.00000E+00 + viscous friction coefficient ..... = 0.00000E+00 + optional contact thickness ....... = 0.00000E+00 + optional thickness scale factor... = 0.00000E+00 + local penalty scale factor........ = 0.00000E+00 + flag for adaptive remeshing ...... = 0 + eq.0: inactive + eq.1: h-adaptive only + eq.2: r-adaptive only + rayleigh damping coefficient...... = 0.00000E+00 + pressure cutoff .................. = 0.00000E+00 + viscosity coefficient ............ = 0.00000E+00 + relative volume for tensile fail.. = 0.00000E+00 + relative volume for compres fail.. = 0.00000E+00 + e ..(null shells and beams)....... = 0.00000E+00 + vnu (null shells and beams)....... = 0.00000E+00 + shear area factor ................ = 1.00000E+00 + thru-thickness integration points = 2.00000E+00 + print out option ................. = 3.00000E+00 + eq.1.0:average resultants & fiber lengths + eq.2.0:resultants at plan points & fiber lengths + eq.3.0:resultants,stresses all points & fiber lengths + + integration rule ................. = 0.00000E+00 + lt.0.0:absolute value is specified rule # + eq.0.0:gauss (trapezoidal if > 10 IP) + eq.1.0:trapezoidal rule + shell formulation ................ = 2 + eq. 1: hughes-liu + eq. 2: belytschko-tsay + eq. 3: bciz + eq. 4: c0-triangular element + eq. 5: membrane element + eq. 6: s/r hughes-liu + eq. 7: s/r co-rotational hughes-liu + eq. 8: belytschko-leviathan + eq. 9: fully integrated membrane + eq. 10: belytschko-wong-chiang + eq. 11: fast hughes-liu + eq. 12: 2d plane stress + eq. 13: 2d plane strain + eq. 14: 2d axisymmetric (area wgt) + eq. 15: 2d axisymmetric (volume wgt) + eq. 16: fully integrated element + eq. 17: dkt element + eq. 18: dkq-dkt linear element + eq. 20: assumed strain linear element + eq. 21: assumed strain linear elem(5DOF) + eq. 22: linear shear panel element(3DOF) + eq. 23: 8-node quadratic quadrilateral + eq. 24: 6-node quadratic triangular + eq. 25: belytschko-tsay with + thickness stretch + eq. 26: fully integrated element with + thickness stretch + eq. 27: c0-triangular element with + thickness stretch + eq. 29: cohesive element + eq. 41: meshfree shell local projection + eq. 42: meshfree shell global projection + eq. 43: meshfree plane strain + eq. 44: meshfree axisymmetric solid + eq. 46: cohesive element + eq. 47: cohesive with shell offsets + eq. 55: 8-node 2D plane strain fracture + eq. 98: interpolation shell element + eq. 99: elastic vibration element + eq. 201: isogeometric nurbs element + ge.1000: user defined (generalized) shell + shell thickness: node 1 .. = 1.00000E-09 + node 2 .. = 1.00000E-09 + node 3 .. = 1.00000E-09 + node 4 .. = 1.00000E-09 + + reference surface ................ = 0.00000E+00 + eq. 1.0:top + eq. 0.0:middle + eq.-1.0:bottom + + mass per unit area ............... = 0.00000E+00 + + flag for discontinuous thickness + field for elements with thickness + stretch .......................... = 2 + eq. 0: default is 1 + eq. 1: thickness field is continuous + eq. 2: thickness field is discontinous + + + + n o d a l p o i n t c o o r d i n a t e s + + node ID trnbc x-ord y-ord z-ord rotbc + 1001801 0.0 0.4998E+00 -0.1105E+02 0.0000E+00 0.0 + 1001802 0.0 0.7115E+00 -0.1105E+02 0.0000E+00 0.0 + 1001803 0.0 0.9232E+00 -0.1105E+02 0.0000E+00 0.0 + 1001804 0.0 0.1135E+01 -0.1105E+02 0.0000E+00 0.0 + 1001805 0.0 0.1347E+01 -0.1105E+02 0.0000E+00 0.0 + 1001921 0.0 0.4998E+00 -0.1086E+02 0.0000E+00 0.0 + 1001922 0.0 0.7115E+00 -0.1086E+02 0.0000E+00 0.0 + 1001923 0.0 0.9232E+00 -0.1086E+02 0.0000E+00 0.0 + 1001924 0.0 0.1135E+01 -0.1086E+02 0.0000E+00 0.0 + 1001925 0.0 0.1347E+01 -0.1086E+02 0.0000E+00 0.0 + 1002041 0.0 0.4998E+00 -0.1067E+02 0.0000E+00 0.0 + 1002042 0.0 0.7115E+00 -0.1067E+02 0.0000E+00 0.0 + 1002043 0.0 0.9232E+00 -0.1067E+02 0.0000E+00 0.0 + 1002044 0.0 0.1135E+01 -0.1067E+02 0.0000E+00 0.0 + 1002045 0.0 0.1347E+01 -0.1067E+02 0.0000E+00 0.0 + 1002161 0.0 0.4998E+00 -0.1048E+02 0.0000E+00 0.0 + 1002162 0.0 0.7115E+00 -0.1048E+02 0.0000E+00 0.0 + 1002163 0.0 0.9232E+00 -0.1048E+02 0.0000E+00 0.0 + 1002164 0.0 0.1135E+01 -0.1048E+02 0.0000E+00 0.0 + 1002165 0.0 0.1347E+01 -0.1048E+02 0.0000E+00 0.0 + 1002281 0.0 0.4998E+00 -0.1029E+02 0.0000E+00 0.0 + 1002282 0.0 0.7115E+00 -0.1029E+02 0.0000E+00 0.0 + 1002283 0.0 0.9232E+00 -0.1029E+02 0.0000E+00 0.0 + 1002284 0.0 0.1135E+01 -0.1029E+02 0.0000E+00 0.0 + 1002285 0.0 0.1347E+01 -0.1029E+02 0.0000E+00 0.0 + 1002286 7.0 0.0000E+00 -0.1026E+02 0.2540E-01 7.0 + 1002287 7.0 0.0000E+00 -0.1026E+02 -0.2540E-01 7.0 + 1002288 7.0 0.0000E+00 -0.1107E+02 -0.2540E-01 7.0 + 1002289 7.0 0.0000E+00 -0.1107E+02 0.2540E-01 7.0 + + + + n o d a l s p c s u m m a r y o n *NODE cards + boundary conditions (on=1) + node x y z rx ry rz + 1002286 1 1 1 1 1 1 + 1002287 1 1 1 1 1 1 + 1002288 1 1 1 1 1 1 + 1002289 1 1 1 1 1 1 + + + + s h e l l e l e m e n t s + + elem id part id node1 node2 node3 node4 + thick1 thick2 thick3 thick4 angle offset + 1 1 1002286 1002287 1002288 1002289 + 1.0000E-09 1.0000E-09 1.0000E-09 1.0000E-09 0.0000E+00 0.0000E+00 + + *** Warning 21129 (STR+1129) + shell element, ID 1 violates heuristic shape criterion + area/(longest diagonal)/(longest diagonal) equals: 6.2257E-02 + which may be too small (< 0.1) to permit a stable calculation. + + + + S P H e l e m e n t m a s s d a t a + + element id mat id mass + 1001801 101 0.1093E-03 + 1002045 101 0.1093E-03 + 1002161 101 0.1093E-03 + 1002162 101 0.1093E-03 + 1002163 101 0.1093E-03 + 1002164 101 0.1093E-03 + 1002165 101 0.1093E-03 + 1002281 101 0.1093E-03 + 1002282 101 0.1093E-03 + 1002283 101 0.1093E-03 + 1002284 101 0.1093E-03 + 1002044 101 0.1093E-03 + 1002043 101 0.1093E-03 + 1002042 101 0.1093E-03 + 1001802 101 0.1093E-03 + 1001803 101 0.1093E-03 + 1001804 101 0.1093E-03 + 1001805 101 0.1093E-03 + 1001921 101 0.1093E-03 + 1001922 101 0.1093E-03 + 1001923 101 0.1093E-03 + 1001924 101 0.1093E-03 + 1001925 101 0.1093E-03 + 1002041 101 0.1093E-03 + 1002285 101 0.1093E-03 + + + + r i g i d w a l l d e f i n i t i o n s + + + + + rigidwall ID = 1 + # of slave nodes = 29 + birth time = 0.00000E+00 + death time = 0.10000E+21 + penalty scale factor = 0.10000E+01 + moving rigidwall flag = 0 + eq.1: flat rigidwall has mass and vel. + eq.2: prescribed velocity history + eq.3: prescribed displacement history + generalized rigidwall type = 0 + eq.0: flat of infinite extent + eq.1: flat with defined size + eq.2: extra nodes and softening + eq.3: options 2 and 3 active + eq.4: prescribed motion flat plate + eq.5: prescribed motion cylinder + eq.6: prescribed motion sphere + eq.7: prescribed motion prism + eq.8: prescribed motion cylinder (interior) + eq.9: prescribed motion sphere (interior) + stick condtion = 0.00000E+00 + eq.0: frictionless sliding + gt.0.and.lt.1:frictional sliding + eq.1: sticking + eq.2: normal weld + eq.3: sticking weld + + coordinates of orientation vector are + i j + 0.0000E+00 0.1000E+01 + 0.0000E+00 0.0000E+00 + 0.0000E+00 0.0000E+00 + slave nodes + 1. 1001801 + 2. 1001802 + 3. 1001803 + 4. 1001804 + 5. 1001805 + 6. 1001921 + 7. 1001922 + 8. 1001923 + 9. 1001924 + 10. 1001925 + 11. 1002041 + 12. 1002042 + 13. 1002043 + 14. 1002044 + 15. 1002045 + 16. 1002161 + 17. 1002162 + 18. 1002163 + 19. 1002164 + 20. 1002165 + 21. 1002281 + 22. 1002282 + 23. 1002283 + 24. 1002284 + 25. 1002285 + 26. 1002286 + 27. 1002287 + 28. 1002288 + 29. 1002289 + + + + n o d a l p o i n t v e l o c i t i e s + + node id x-vel y-vel z-vel + x-rot y-rot z-rot + 1001801 -5.0000E+01 0.0000E+00 0.0000E+00 + 0.0000E+00 0.0000E+00 0.0000E+00 + 1001802 -5.0000E+01 0.0000E+00 0.0000E+00 + 0.0000E+00 0.0000E+00 0.0000E+00 + 1001803 -5.0000E+01 0.0000E+00 0.0000E+00 + 0.0000E+00 0.0000E+00 0.0000E+00 + 1001804 -5.0000E+01 0.0000E+00 0.0000E+00 + 0.0000E+00 0.0000E+00 0.0000E+00 + 1001805 -5.0000E+01 0.0000E+00 0.0000E+00 + 0.0000E+00 0.0000E+00 0.0000E+00 + 1001921 -5.0000E+01 0.0000E+00 0.0000E+00 + 0.0000E+00 0.0000E+00 0.0000E+00 + 1001922 -5.0000E+01 0.0000E+00 0.0000E+00 + 0.0000E+00 0.0000E+00 0.0000E+00 + 1001923 -5.0000E+01 0.0000E+00 0.0000E+00 + 0.0000E+00 0.0000E+00 0.0000E+00 + 1001924 -5.0000E+01 0.0000E+00 0.0000E+00 + 0.0000E+00 0.0000E+00 0.0000E+00 + 1001925 -5.0000E+01 0.0000E+00 0.0000E+00 + 0.0000E+00 0.0000E+00 0.0000E+00 + 1002041 -5.0000E+01 0.0000E+00 0.0000E+00 + 0.0000E+00 0.0000E+00 0.0000E+00 + 1002042 -5.0000E+01 0.0000E+00 0.0000E+00 + 0.0000E+00 0.0000E+00 0.0000E+00 + 1002043 -5.0000E+01 0.0000E+00 0.0000E+00 + 0.0000E+00 0.0000E+00 0.0000E+00 + 1002044 -5.0000E+01 0.0000E+00 0.0000E+00 + 0.0000E+00 0.0000E+00 0.0000E+00 + 1002045 -5.0000E+01 0.0000E+00 0.0000E+00 + 0.0000E+00 0.0000E+00 0.0000E+00 + 1002161 -5.0000E+01 0.0000E+00 0.0000E+00 + 0.0000E+00 0.0000E+00 0.0000E+00 + 1002162 -5.0000E+01 0.0000E+00 0.0000E+00 + 0.0000E+00 0.0000E+00 0.0000E+00 + 1002163 -5.0000E+01 0.0000E+00 0.0000E+00 + 0.0000E+00 0.0000E+00 0.0000E+00 + 1002164 -5.0000E+01 0.0000E+00 0.0000E+00 + 0.0000E+00 0.0000E+00 0.0000E+00 + 1002165 -5.0000E+01 0.0000E+00 0.0000E+00 + 0.0000E+00 0.0000E+00 0.0000E+00 + 1002281 -5.0000E+01 0.0000E+00 0.0000E+00 + 0.0000E+00 0.0000E+00 0.0000E+00 + 1002282 -5.0000E+01 0.0000E+00 0.0000E+00 + 0.0000E+00 0.0000E+00 0.0000E+00 + 1002283 -5.0000E+01 0.0000E+00 0.0000E+00 + 0.0000E+00 0.0000E+00 0.0000E+00 + 1002284 -5.0000E+01 0.0000E+00 0.0000E+00 + 0.0000E+00 0.0000E+00 0.0000E+00 + 1002285 -5.0000E+01 0.0000E+00 0.0000E+00 + 0.0000E+00 0.0000E+00 0.0000E+00 + 1002286 -5.0000E+01 0.0000E+00 0.0000E+00 + 0.0000E+00 0.0000E+00 0.0000E+00 + 1002287 -5.0000E+01 0.0000E+00 0.0000E+00 + 0.0000E+00 0.0000E+00 0.0000E+00 + 1002288 -5.0000E+01 0.0000E+00 0.0000E+00 + 0.0000E+00 0.0000E+00 0.0000E+00 + 1002289 -5.0000E+01 0.0000E+00 0.0000E+00 + 0.0000E+00 0.0000E+00 0.0000E+00 + + *** S.P.H. *** + + Space dimension for SPH 2 + + Initial Smoothing length : PART # 101 0.2751672E+00 + SPH PART # 101 + hmin : 0.5503E-01 + hmax : 0.5503E+00 + +************ + + + + + + + + + t i e d n o d a l p a i r s f o r l i n k i n g + + + ************************************************************ + + + m a s s p r o p e r t i e s o f SPH p a r t # 101 + total mass of part = 0.27318471E-02 + x-coordinate of mass center = 0.92316663E+00 + y-coordinate of mass center =-0.10666250E+02 + z-coordinate of mass center = 0.00000000E+00 + + inertia tensor of material + row1= 0.1983E-03 0.0000E+00 0.0000E+00 + row2= 0.0000E+00 0.2448E-03 0.0000E+00 + row3= 0.0000E+00 0.0000E+00 0.4431E-03 + + ************************************************************ + + + m a s s p r o p e r t i e s o f p a r t # 1 + total mass of part = 0.53677342E-23 + x-coordinate of mass center = 0.00000000E+00 + y-coordinate of mass center =-0.57253590E-06 + z-coordinate of mass center = 0.00000000E+00 + + inertia tensor of material + row1= 0.6116E-21 0.0000E+00 0.0000E+00 + row2= 0.0000E+00 0.3463E-26 0.0000E+00 + row3= 0.0000E+00 0.0000E+00 0.6116E-21 + + principal inertias + i11 = 0.6116E-21 + i22 = 0.3463E-26 + i33 = 0.6116E-21 + + principal directions + row1= 0.1000E+01 0.0000E+00 0.0000E+00 + row2= 0.0000E+00 0.1000E+01 0.0000E+00 + row3= 0.0000E+00 0.0000E+00 0.1000E+01 + + ************************************************************ + + + m a s s p r o p e r t i e s o f b o d y + total mass of body = 0.27318473E-02 + x-coordinate of mass center = 0.92316651E+00 + y-coordinate of mass center =-0.10666249E+02 + z-coordinate of mass center = 0.00000000E+00 + + inertia tensor of body + row1= 0.1983E-03 0.1863E-08 0.0000E+00 + row2= 0.1863E-08 0.2448E-03 0.0000E+00 + row3= 0.0000E+00 0.0000E+00 0.4431E-03 + + principal inertias of body + i11 = 0.1983E-03 + i22 = 0.2448E-03 + i33 = 0.4431E-03 + + principal directions + row1= 0.1000E+01 0.4007E-04 0.0000E+00 + row2= -0.4007E-04 0.1000E+01 0.0000E+00 + row3= 0.0000E+00 0.0000E+00 0.1000E+01 + + ************************************************************ + + + ************************************************************ + + NOTE : For 2D axisymmetric problems the following + masses are reported per radian. + For 2D plain strain/stress problems the + masses are reported per unit thickness. + + summary of mass + lumped mass in deformable + part of structure mass= 0.00000000E+00 + part id = 101 mass= 0.27318476E-02 + part id = 1 mass= 0.53677342E-23 + + t o t a l m a s s = 0.27318476E-02 + x-coordinate of mass center = 0.92316651E+00 + y-coordinate of mass center =-0.10666249E+02 + z-coordinate of mass center = 0.00000000E+00 + + + + ************************************************************ + + + S t o r a g e a l l o c a t i o n + + Memory required to begin solution : 257160 + Additional dynamically allocated memory: 52836 + Total: 309996 + + 25 smallest timesteps + ------------------------------------------------ + element number part timestep + sph 1002285 101 6.0802E-05 + sph 1002041 101 6.0802E-05 + sph 1001925 101 6.0802E-05 + sph 1001924 101 6.0802E-05 + sph 1001923 101 6.0802E-05 + sph 1001922 101 6.0802E-05 + sph 1001921 101 6.0802E-05 + sph 1001805 101 6.0802E-05 + sph 1001804 101 6.0802E-05 + sph 1001803 101 6.0802E-05 + sph 1001802 101 6.0802E-05 + sph 1002042 101 6.0802E-05 + sph 1002043 101 6.0802E-05 + sph 1002044 101 6.0802E-05 + sph 1002284 101 6.0802E-05 + sph 1002283 101 6.0802E-05 + sph 1002282 101 6.0802E-05 + sph 1002281 101 6.0802E-05 + sph 1002165 101 6.0802E-05 + sph 1002164 101 6.0802E-05 + sph 1002163 101 6.0802E-05 + sph 1002162 101 6.0802E-05 + sph 1002161 101 6.0802E-05 + sph 1002045 101 6.0802E-05 + sph 1001801 101 6.0802E-05 + 1 t 0.0000E+00 dt 6.08E-05 flush i/o buffers 08/31/25 16:53:38 + 1 t 0.0000E+00 dt 6.08E-05 write d3plot file 08/31/25 16:53:38 + 66 t 3.9521E-03 dt 6.08E-05 write d3plot file 08/31/25 16:53:38 + 132 t 7.9651E-03 dt 6.08E-05 write d3plot file 08/31/25 16:53:38 + 198 t 1.1982E-02 dt 6.08E-05 write d3plot file 08/31/25 16:53:38 + 264 t 1.5992E-02 dt 6.08E-05 write d3plot file 08/31/25 16:53:38 + 329 t 1.9947E-02 dt 6.08E-05 write d3plot file 08/31/25 16:53:38 + 395 t 2.3959E-02 dt 6.08E-05 write d3plot file 08/31/25 16:53:38 + 461 t 2.7972E-02 dt 6.08E-05 write d3plot file 08/31/25 16:53:38 + 527 t 3.1984E-02 dt 6.08E-05 write d3plot file 08/31/25 16:53:38 + + *** termination time reached *** + 576 t 3.5024E-02 dt 6.08E-05 write d3dump01 file 08/31/25 16:53:38 + 576 t 3.5024E-02 dt 6.08E-05 write d3plot file 08/31/25 16:53:38 + + N o r m a l t e r m i n a t i o n 08/31/25 16:53:38 + + S t o r a g e a l l o c a t i o n + + Memory required to complete solution : 257160 + Additional dynamically allocated memory: 60696 + Total: 317856 + + T i m i n g i n f o r m a t i o n + CPU(seconds) %CPU Clock(seconds) %Clock + ---------------------------------------------------------------- + Keyword Processing ... 0.0000E+00 0.00 6.9000E-02 5.42 + KW Reading ......... 0.0000E+00 0.00 1.4000E-02 1.10 + KW Writing ......... 0.0000E+00 0.00 2.1000E-02 1.65 + Initialization ....... 1.0000E+00 100.00 1.1230E+00 88.22 + Init Proc Phase 1 .. 0.0000E+00 0.00 4.9000E-02 3.85 + Init Proc Phase 2 .. 0.0000E+00 0.00 1.5000E-02 1.18 + Element processing ... 0.0000E+00 0.00 2.4000E-02 1.89 + Shells ............. 0.0000E+00 0.00 2.0000E-03 0.16 + Binary databases ..... 0.0000E+00 0.00 9.0000E-03 0.71 + ASCII database ....... 0.0000E+00 0.00 2.1000E-02 1.65 + Rigid Bodies ......... 0.0000E+00 0.00 2.0000E-03 0.16 + Other ................ 0.0000E+00 0.00 2.5000E-02 1.96 + ---------------------------------------------------------------- + T o t a l s 1.0000E+00 100.00 1.2730E+00 100.00 + + Problem time = 3.5024E-02 + Problem cycle = 576 + Total CPU time = 1 seconds ( 0 hours 0 minutes 1 seconds) + CPU time per zone cycle = 0 picoseconds + Clock time per zone cycle= 5408651 picoseconds + + Number of CPU's 2 + NLQ used/max 136/ 136 + Start time 08/31/2025 16:53:38 + End time 08/31/2025 16:53:38 + Elapsed time 0 seconds( 0 hours 0 min. 0 sec.) for 576 cycles + + N o r m a l t e r m i n a t i o n 08/31/25 16:53:38 diff --git a/test/test_data/sph_models/R7_1_2/d3plot b/test/test_data/sph_models/R7_1_2/d3plot new file mode 100644 index 0000000..22b49f9 Binary files /dev/null and b/test/test_data/sph_models/R7_1_2/d3plot differ diff --git a/test/test_data/sph_models/R7_1_2/d3plot01 b/test/test_data/sph_models/R7_1_2/d3plot01 new file mode 100644 index 0000000..d047d0f Binary files /dev/null and b/test/test_data/sph_models/R7_1_2/d3plot01 differ diff --git a/test/test_data/sph_models/R7_1_2/d3plot02 b/test/test_data/sph_models/R7_1_2/d3plot02 new file mode 100644 index 0000000..3a6e7ca Binary files /dev/null and b/test/test_data/sph_models/R7_1_2/d3plot02 differ diff --git a/test/test_data/sph_models/R7_1_2/sph_test.k b/test/test_data/sph_models/R7_1_2/sph_test.k new file mode 100644 index 0000000..1d809f3 --- /dev/null +++ b/test/test_data/sph_models/R7_1_2/sph_test.k @@ -0,0 +1,143 @@ +*KEYWORD +*TITLE +$# title +SPH Unit Test +*CONTROL_CONTACT +$# slsfac rwpnal islchk shlthk penopt thkchg orien enmass + 0.0 0.0 1 0 1 0 1 0 +$# usrstr usrfrc nsbcs interm xpene ssthk ecdt tiedprj + 0 0 0 0 0.0 0 0 0 +*CONTROL_CPU +$# cputim iglst + 0.0 +*CONTROL_DAMPING +$# nrcyck drtol drfctr drterm tssfdr irelal edttl idrflg + 0 0.0 0.0 0.0 0.0 0 0.0 0 +*CONTROL_ENERGY +$# hgen rwen slnten rylen irgen maten drlen disen + 2 2 2 1 2 1 1 1 +*CONTROL_OUTPUT +$# npopt neecho nrefup iaccop opifs ipnint ikedit iflush + 0 0 0 0 0.0 0 100 5000 +*CONTROL_SPH +$# ncbs boxid dt idim nmneigh form start maxv + 0 0 0.0 2 0 0 0.0 0.0 +*CONTROL_TERMINATION +$# endtim endcyc dtmin endeng endmas nosol + 0.035 0 0.0 0.0 0.0 0 +*CONTROL_TIMESTEP +$# dtinit tssfac isdo tslimt dt2ms lctm erode ms1st + 0.0 0.9 0 0.0 0.0 0 0 0 +*DATABASE_GLSTAT +$# dt binary lcur ioopt +4.00000E-4 2 0 1 +*DATABASE_MATSUM +$# dt binary lcur ioopt +4.00000E-4 2 0 1 +*DATABASE_RCFORC +$# dt binary lcur ioopt +4.00000E-4 2 0 1 +*DATABASE_RWFORC +$# dt binary lcur ioopt +4.00000E-4 2 0 1 +*DATABASE_SLEOUT +$# dt binary lcur ioopt +4.00000E-4 2 0 1 +*DATABASE_BINARY_D3PLOT +$# dt lcdt beam npltc psetid + 0.004 0 0 0 0 +*DATABASE_EXTENT_BINARY +$# neiph neips maxint strflg sigflg epsflg rltflg engflg + 0 0 0 0 1 1 1 1 +$# cmpflg ieverp beamip dcomp shge stssz n3thdt ialemat + 0 0 0 1 1 1 2 1 +*MAT_PLASTIC_KINEMATIC +$# mid ro e pr sigy etan beta + 1 0.00271 68900.0 0.33 117.0 6.8 1.0 +$# src srp fs vp + 0.0 0.0 0.0 0.0 +*MAT_PLASTIC_KINEMATIC +$# mid ro e pr sigy etan beta + 2 0.00271 68900.0 0.33 117.0 6.8 1.0 +$# src srp fs vp + 0.0 0.0 0.0 0.0 +*INITIAL_VELOCITY +$# nsid nsidex boxid irigid icid + 0 0 0 0 0 +$# vx vy vz vxr vyr vzr + -50.0 0.0 0.0 0.0 0.0 0.0 +*PART +$# title + +$# pid secid mid eosid hgid grav adpopt tmid + 101 101 1 0 0 0 0 0 +*SECTION_SPH +$# secid cslh hmin hmax sphini death start sphkern + 101 1.3 0.0 0.0 0.0 0.0 0.0 0 +*RIGIDWALL_PLANAR_ID +$# id title + 1 +$# nsid nsidex boxid offset birth death rwksf + 0 0 0 0.0 0.01.00000E20 1.0 +$# xt yt zt xh yh zh fric wvel + 0.0 0.0 0.0 1.0 0.0 0.0 0.0 0.0 +*SET_NODE_LIST_GENERATE +$# sid da1 da2 da3 da4 solver its - + 101 0.0 0.0 0.0 0.0MECH 1 +$# b1beg b1end b2beg b2end b3beg b3end b4beg b4end + 1000001 1004800 0 0 0 0 0 0 +*NODE +$# nid x y z tc rc + 1001801 0.4998333 -11.04725 0.0 0 0 + 1001802 0.7115 -11.04725 0.0 0 0 + 1001803 0.9231666 -11.04725 0.0 0 0 + 1001804 1.134833 -11.04725 0.0 0 0 + 1001805 1.3465 -11.04725 0.0 0 0 + 1001921 0.4998333 -10.85675 0.0 0 0 + 1001922 0.7115 -10.85675 0.0 0 0 + 1001923 0.9231666 -10.85675 0.0 0 0 + 1001924 1.134833 -10.85675 0.0 0 0 + 1001925 1.3465 -10.85675 0.0 0 0 + 1002041 0.4998333 -10.66625 0.0 0 0 + 1002042 0.7115 -10.66625 0.0 0 0 + 1002043 0.9231666 -10.66625 0.0 0 0 + 1002044 1.134833 -10.66625 0.0 0 0 + 1002045 1.3465 -10.66625 0.0 0 0 + 1002161 0.4998333 -10.47575 0.0 0 0 + 1002162 0.7115 -10.47575 0.0 0 0 + 1002163 0.9231666 -10.47575 0.0 0 0 + 1002164 1.134833 -10.47575 0.0 0 0 + 1002165 1.3465 -10.47575 0.0 0 0 + 1002281 0.4998333 -10.28525 0.0 0 0 + 1002282 0.7115 -10.28525 0.0 0 0 + 1002283 0.9231666 -10.28525 0.0 0 0 + 1002284 1.134833 -10.28525 0.0 0 0 + 1002285 1.3465 -10.28525 0.0 0 0 +*ELEMENT_SPH +$# nid pid mass nend + 1001801 101 1.092736e-04 0 + 1001802 101 1.092736e-04 0 + 1001803 101 1.092736e-04 0 + 1001804 101 1.092736e-04 0 + 1001805 101 1.092735e-04 0 + 1001921 101 1.092741e-04 0 + 1001922 101 1.092741e-04 0 + 1001923 101 1.092741e-04 0 + 1001924 101 1.092741e-04 0 + 1001925 101 1.092741e-04 0 + 1002041 101 1.092741e-04 0 + 1002042 101 1.092741e-04 0 + 1002043 101 1.092741e-04 0 + 1002044 101 1.092741e-04 0 + 1002045 101 1.092741e-04 0 + 1002161 101 1.092741e-04 0 + 1002162 101 1.092741e-04 0 + 1002163 101 1.092741e-04 0 + 1002164 101 1.092741e-04 0 + 1002165 101 1.092741e-04 0 + 1002281 101 1.092736e-04 0 + 1002282 101 1.092736e-04 0 + 1002283 101 1.092736e-04 0 + 1002284 101 1.092736e-04 0 + 1002285 101 1.092735e-04 0 +*END diff --git a/test/test_data/sph_models/R7_1_2_Histvar=2/binout b/test/test_data/sph_models/R7_1_2_Histvar=2/binout new file mode 100644 index 0000000..50a2aac Binary files /dev/null and b/test/test_data/sph_models/R7_1_2_Histvar=2/binout differ diff --git a/test/test_data/sph_models/R7_1_2_Histvar=2/d3hsp b/test/test_data/sph_models/R7_1_2_Histvar=2/d3hsp new file mode 100644 index 0000000..f8e9b0d --- /dev/null +++ b/test/test_data/sph_models/R7_1_2_Histvar=2/d3hsp @@ -0,0 +1,3014 @@ + Date: 08/31/2025 Time: 16:53:46 + + ___________________________________________________ + | | + | Livermore Software Technology Corporation | + | | + | 7374 Las Positas Road | + | Livermore, CA 94551 | + | Tel: (925) 449-2500 Fax: (925) 449-2507 | + | www.lstc.com | + |_________________________________________________| + | | + | LS-DYNA, A Program for Nonlinear Dynamic | + | Analysis of Structures in Three Dimensions | + | Version : smp s R7.1.2 Date: 01/07/2015 | + | Revision: 95103 Time: 10:23:13 | + | | + | Features enabled in this version: | + | Shared Memory Parallel | + | FFTW (multi-dimensional FFTW Library) | + | Interactive Graphics | + | ANSYS Database format | + | NSYS License (ANSYS145) | + | | + | Licensed to: University of Waterloo -- 1081066 | + | Issued by : Pascale.SaneGuttin_08122025 | + | | + | Platform : WINDOWS X64 | + | OS Level : Windows Vista/7/8 Server 2008/2012| + | Compiler : Intel Fortran XE 2013 MSVC++ 2010 | + | Hostname : Trauma118 | + | Precision : Single precision (I4R4) | + | SVN Version: 95103 | + | | + | Unauthorized use infringes LSTC copyrights | + |_________________________________________________| + + + Input file: C:\Users\DCHartlen\Documents\Scratchpad\lasso-python\test\test_data\sph_ + + The native file format : 32-bit small endian + Memory size from command line: 20000000 + + ******** notice ******** notice ******** notice ******** + * * + * This is the LS-DYNA Finite Element code. * + * * + * Neither LSTC nor the authors assume any responsibility for * + * the validity, accuracy, or applicability of any results * + * obtained from this system. The user must verify his own * + * results. * + * * + * LSTC endeavors to make the LS-DYNA code as complete, * + * accurate and easy to use as possible. * + * Suggestions and comments are welcomed. Please report any * + * errors encountered in either the documentation or results * + * immediately to LSTC through your site focus. * + * * + * Copyright (C) 1990-2015 * + * by Livermore Software Technology Corp. (LSTC) * + * All rights reserved * + * * + ******** notice ******** notice ******** notice ******** + + Beginning of keyword reader 08/31/25 16:53:46 + + + ** ****** ********** ******* + ** ******* ********** ******** + ** ** ** *** + ** ******* ** ** + ** ** ** *** + ********* ******** ** ******** + ********* ****** ** ****** + + +** ****** ******* ** ** * ** ***** +** ******* ******** ** ** ** ** ******* +** ** ** *** ** ** *** ** *** *** +** ** ** *** ** ** *** ** *** *** +** ** ** ** ** **** ** ** ** ********* +** ** ** *** ** ** *** ** ** +** ** ** *** ** ** *** ** ** +********* ******* ******* ** ** ** ** ** +********* ******* ****** ** ** * ** ** + + L I S T O F K E Y W O R D C O U N T S + +total # of *AIRBAG_option.......................... 0 +total # of *AIRBAG_INTERACTION..................... 0 +total # of *AIRBAG_PARTICLE........................ 0 +total # of *AIRBAG_REFERENCE_GEOMETRY.............. 0 +total # of *AIRBAG_SHELL_REFERENCE_GEOMETRY........ 0 +total # of *PARTICLE_BLAST......................... 0 +total # 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Model Size-General + + number of materials or property sets........... 2 + + number of nodal+scalar points.................. 29 + + number of merged nodal points.................. 0 + + number of solid elements....................... 0 + + number of beam elements........................ 0 + + number of shell elements....................... 1 + + number of thick shell elements................. 0 + + number of user defined material subroutines.... 0 + + number of material groups tied to solids....... 0 + + number of tracer particles..................... 0 + + number of super elements....................... 0 + + number of solid tetrahedrons with 10 nodes..... 0 + + number of quadratic shell elements............. 0 + + number of shells with extra degrees of freedom. 0 + + number of solids with extra degrees of freedom. 0 + + number of user defined sections................ 0 + + activate sensor capability (inactive=0)........ 0 + + number of user defined solid element types..... 0 + + number of solid interpolation elements......... 0 + + number of user defined shell element types..... 0 + + number of shell interpolation elements......... 0 + + number of constrained nodes for interpolation.. 0 + + consistent mass matrix for user-def elements... 0 + + number of shell nurbs patches.................. 0 + + + CONTROL CARD 2. Model Size-Boundary Conditions + + number of spc nodes............................ 0 + + number of spc coordinates...................... 0 + + number of velocity cards....................... 0 + + number of non-reflecting boundary segments..... 0 + + number of b. c. cards.......................... 0 + + number of b. c. cards with failure............. 0 + + number of box definition for b. c. card........ 0 + + number of nodes/interface for cyclic symmetry.. 0 + + number of rigid bodies with attachment nodes... 0 + + + CONTROL CARD 3. Model Size-Loading + + number of load curves.......................... 0 + + number of nodes for load curve functions....... 0 + + number of curves for entities.................. 0 + + number of concentrated load cards.............. 0 + + number of pressure load cards.................. 0 + + number of nonuniform pressure loads-4 nodes.... 0 + + number of nonuniform pressure loads-6 nodes.... 0 + + number of nonuniform pressure loads-8 nodes.... 0 + + number of generalized body force sets.......... 0 + + number of beam pressure card definitions....... 0 + + number of detonation points.................... 0 + + number of zones for momentum deposition........ 0 + + number of points in density vs. depth curve.... 0 + + number of outflow boundary segments............ 0 + + number of load curve feedback sets............. 0 + + number of pressure load sets with masks........ 0 + + number of spray systems ....................... 0 + + number of initial stress by cross-sections sets 0 + + number of pressure load sets................... 0 + + number of ground motion defintions............. 0 + + number of ground motions specified at nodes.... 0 + + number of ground motions specified at points... 0 + + number of ground motions specified in bin file. 0 + + number of segsets with specified ground motion. 0 + + number of soil-structure interfaces for output. 0 + + number of aero-acoustic load cards............. 0 + + + CONTROL CARD 4. Model Size-Constraints and Contact + + number of rigid wall definitions............... 1 + + number of number of contact definitions........ 0 + + number of number of guided cable contacts...... 0 + + number of shell-solid interfaces............... 0 + + number of tie-breaking slide lines............. 0 + + number of blocks of tied nodes with fracture .. 0 + + number of tied nodal pairs for linking......... 0 + + number of constraint cards..................... 0 + + number of linear constraint equations.......... 0 + + number of 1d slidelines........................ 0 + + number of adaptive constraints................. 0 + + number of ALE smoothing constraints............ 0 + + number of 2d slidelines........................ 0 + + number of 2d automatic contacts................ 0 + + number of part IDs for interior contact........ 0 + + number of beam release sets.................... 0 + + max. number of nodes in any beam release set... 0 + + + CONTROL CARD 5. Model Size-Rigid Body Parameters + + number of rigid body constraint sets........... 0 + + number of rigid body merge cards............... 0 + + number of joint constraints.................... 0 + + number of joint failure definitions............ 0 + + number of joint user force definitions......... 0 + + number of extra node blocks.................... 0 + + number of rigid body inertia definitions....... 0 + + number of geometric contact entities........... 0 + + number of joint stiffness definitions.......... 0 + + number of rigid body stoppers.................. 0 + + joint formulation for rigid bodies............. 0 + eq.0: penalty + eq.1: lagrange multiplier + + generalized stiffness angle update ............ 0 + eq.0: incremental formulation + eq.1: total formulation + + number of flexible bodies...................... 0 + lt.0: stress recovery active + + number of relative damping definitions......... 0 + + flag for reading rigid surface contact input... 0 + eq.0: no rigid surface contact + eq.1: read rigid surface input + + number of Hybrid III dummies .................. 0 + + number of Hybrid III joint modifications ...... 0 + + number of interpolation constraints ........... 0 + + flag for metalforming fast rigid bodies........ 0 + eq.0: full rigid body treatment + eq.1: fast rigid body treatment + + number of prescribed rigid body orientations 0 + + + CONTROL CARD 6. Model Size-Discrete Elements & Seat Belts + + number of spring-damper material types......... 0 + + number of local coordinate systems............. 0 + + number of discrete springs and dampers......... 0 + + number of lumped masses........................ 0 + + number of parts with added mass................ 0 + + number of nodes with mass matrix............... 0 + + number of seat belt materials.................. 0 + + number of seat belt elements................... 0 + + number of 2d seat belt elements................ 0 + + number of slip rings........................... 0 + + number of retractors........................... 0 + + number of sensors.............................. 0 + + number of pretensioners........................ 0 + + number of accelerometers....................... 0 + + number of discrete rotary inertias............. 0 + + number of SPH particles........................ 25 + + number of groups of SPH particles.............. 1 + + + CONTROL CARD 7. Model Size-Output Control + + number of cross section definitions............ 0 + + number of nodal groups for resultant forces.... 0 + + number of interface segments for linking....... 0 + + max. number of segments defining rigid wall.... 0 + + number of power spectrum density databases..... 0 + + + CONTROL CARD 8. Computation Options-Termination + + termination time............................... 0.3500E-01 + + termination cycle.............................. 0 + + reduction factor for minimum time step (TSMIN). 0.0000E+00 + + percent change in energy ratio for termination. 0.0000E+00 + + percent change in total mass for termination... 0.0000E+00 + + number of nodes for displacement termination... 0 + + number of rigid bodies for disp. termination... 0 + + number of conditions for contact termination... 0 + + number of conditions for ldcurve termination... 0 + + ID of sensor_switch for sensor termination... 0 + + + CONTROL CARD 8a. Computation Options-Start + + start time..................................... 0.0000E+00 + + + CONTROL CARD 9. Computation Options-Time Step Size + + initial time step size......................... 0.0000E+00 + + time step scale factor......................... 0.9000E+00 + + time step size calculation for 4-node shells... 0 + eq.0: based on longest element side + eq.1: based on longest element diagonal + eq.2: based on bar wave speed max side + eq.3: based on optimal time step size + estimator + + shell element minimum time step assignment..... 0.0000E+00 + + time step size for mass scaled solution, dt2ms. 0.0000E+00 + lt.0: minimum time step size permitted + + load curve number for maximum timestep......... 0 + + erosion flag for solid and thick shells........ 0 + eq.0: no + eq.1: yes + + option part set ID for eroding solids.......... 0 + eq.0: all solids are checked if eros_flag=1 + gt.0: solids within part set are checked + + limit mass scaling to the first time step...... 0 + eq.0: no + eq.1: yes + + scale factor on initial dt to determine dt2ms.. 0.0000E+00 + + load curve ID for mass scaling ................ 0 + + flag for selective mass scaling................ 0 + eq.0: off + eq.1: on + eq.2: on for part subset + + consistent constraint logical switch........... F + + flag for part set for erosion ................. 0 + eq.0: no + eq.1: yes + + flag for accounting for rotations in sms....... 0.0000E+00 + eq.0.: off (default) + gt.0.: on + implicit_explicit_hybrid part set.............. 0 + + + + CONTROL CARD 10. Computation Options-Loading + + x-ground acceleration.......................... 0 + eq.0: no + eq.1: yes + + y-ground acceleration.......................... 0 + eq.0: no + eq.1: yes + + z-ground acceleration.......................... 0 + eq.0: no + eq.1: yes + + x-angular velocity............................. 0 + eq.0: no + eq.1: yes + + y-angular velocity............................. 0 + eq.0: no + eq.1: yes + + z-angular velocity............................. 0 + eq.0: no + eq.1: yes + + number of materials receiving body forces...... 0 + eq.0: all + eq.n: subset of n materials + + flag for user defined loading subroutine....... 0 + lt.0: magnitude=# of input constants + eq.0: no + eq.1: yes, but no additional input + + explosive initiation option.................... 0 + eq.0: lighting times based on distance + eq.1: lighting times include geometric + effects for wave shapers, etc. + + sub-sea structural analysis option............. 0 + eq.0: off + eq.1: on with 1 point integration + eq.4: on with 4 point integration + contact pressure calculation option............ 0 + eq.0: off (default) + eq.1: on + # of user defined loading set.................. 0 + + + CONTROL CARD 11. Computation Options-Input Control + + initialization of velocities................... 1 + eq.0: velocities are initialized to zero + eq.1: initial velocities are read in + eq.2: all velocities have same input value + eq.3: as 2 but exempted nodes are defined + eq.4: box option + eq.5: generation with arbitrary numbering + eq.6: rotational and translational via IDs + eq.7: option 6 but applied during calculation + + time to apply initial velocites (option 7)..... 0.0000E+00 + + arbitrary node and element numbering flag ..... 1 + + constitute, eqs-of-state, cross-section option. 0 + eq.0: off + eq.1: separate input is required for each + + specified nodal coordinate format.............. e20.0 + + flag for thermodynamic control volume input.... 0 + + overpressure option (eq.0 no, eq.1 yes)....... 0 + + number of part (de) activation sensors......... 0 + + number of rigid body initial velocity sets..... 0 + + jacobian tolerance for type 16 tetrahedron..... 0.0000E+00 + + + + CONTROL CARD 12. Computation Options-Elements + + warped shell angle in deg. for error message... 0.2000E+02 + + iterative plane stress plasticity for shells... 1 + eq.1: vectorized with three iterates + eq.2: nonvectorized iterations as needed + eq.3: noniterative radial return + + Calculation option for F for solid elements.... 0 + eq.0: default, explicit=1, implicit=2 + eq.1: integrate incrementally + eq.2: compute directly + + flag for automatic sorting .................... 0 + eq. 1: on for triangular shells + eq.11: on for triangular shells and solids + eq.10: on for solids (tets and pentas) + + formulation for sorted degenerate tet/pent..... 0 + eq. 0: no sorting required(default) + eq. 1: type 10 tet & type 15 pent + eq. 2: type 10 tet, 1pt pent to type 15 pent, + fully intg pent to type 115 pent + eq. 3: same as 1 & switch elem in messag file + eq. 4: same as 2 & switch elem in messag file + + formulation for sorted trianglar shells ....... 0 + eq. 0: no sorting required(default) + eq. 1: C0 triangle, type 4 + eq. 2: DKT triangle type 17 + + hughes-liu normal computation options.......... -1 + eq.-2: unique nodal fibers + eq.-1: compute normals each cycle + eq.0 : default set to -1 + eq.1 : compute on restart + eq.n : compute on restart + each nth cycle + + thickness modification for membrane strains.... 0 + eq.0: no + eq.1: 4-node shell only + eq.2: 8-node thick shell types 1 & 2 + eq.3: update both 4 & 8 node thickness + eq.4: same as option 1 but the elastic + strains are neglected + + shell part set ID (pids) for thickness update. 0 + lt.0: exclude pids if update option is active + eq.0: include all if update option is active + gt.0: include pids if update option is active + + shell part set ID where type 4 update applies 0 + + shell formulation basis........................ 2 + eq. 1: hughes-liu + eq. 2: belytschko-tsay + eq. 3: bciz + eq. 4: c0-triangular element + eq. 5: membrane element + eq. 6: s/r hughes-liu + eq. 7: s/r co-rotational hughes-liu + eq. 8: belytschko-leviathan shell + eq. 9: fully integrated membrane + eq. 10: belytschko-wong-chiang + eq. 11: fast hughes-liu + eq. 12: 2d plane stress + eq. 13: 2d plane strain + eq. 14: 2d axisymmetric (area wgt) + eq. 15: 2d axisymmetric (volume wgt) + eq. 16: fully integrated element + eq. 17: dkt element + eq. 18: dkq-dkt linear element + eq. 20: assumed strain linear element + eq. 21: assumed strain linear element(5DOF) + eq. 22: linear shear panel element(3DOF) + eq. 23: 8-node quadratic quadrilateral shell + eq. 24: 6-node quadratic triangular shell + eq. 25: belytschko-tsay with + thickness stretch + eq. 26: fully integrated element with + thickness stretch + eq. 27: c0-triangular element with + thickness stretch + eq. 29: cohesive element + eq. 31: 2-d 1-pt. eulerian n-s + eq. 32: 2-d 4-pt. eulerian n-s + eq. 33: 2-d cvfem eulerian n-s + eq. 41: meshfree shell local projection + eq. 42: meshfree shell global projection + eq. 43: meshfree plane strain + eq. 44: meshfree axisymmetric solid + eq. 46: cohesive element + eq. 47: cohesive with shell offsets + eq. 98: interpolation shell element + eq. 99: elastic vibration element + eq. 201: isogeometric nurbs element + ge.1000: user defined (generalized) shell + + # of user specified beam integration rules..... 0 + + max number of integration points reqd (beams) . 0 + + # of user specified shell integration rules.... 0 + + max number of integration points reqd (shells). 0 + + warping stiffness for Belytschko-Tsay shells... 2 + eq.1: Belytschko-Wong-Chiang modification + eq.2: original Belytschko-Tsay + + projection method for warping stiffness........ 0 + eq.0: drill + eq.1: full + + reference configuration ....................... 0 + eq. 0: no + eq. 1: yes, active for all airbags + eq. 2: yes, reference geometry Dt + eq.10: yes, active for foam elements + eq.11: options 1 and 10 active + eq.12: options 2 and 10 active + + contact reference configuration ............... 0 + eq. 0: no + eq. n: n number of reference nodes + + invariant node numbering ...................... 0 + eq.-4 on for both shell and solid elements + except triangular shells + eq.-2 on for shell elements except + triangular shells + eq. 1 off (default) + eq. 2 on for all shell elements + eq. 3 on for solid elements with + anisotropic material + eq. 4 on for all shell elements and solid + elements with anisotropic material + + activation time for reference geometry ........ 0.0000E+00 + + scale factor for shell rotary mass ............ 0.1000E+01 + + integration for shell through thickness ....... 0 + eq.0: Gauss + eq.1: Lobatto + + use laminated shell theory for material ....... 0 + types 22, 54, 55, and 76: + eq.0: no + eq.1: yes for thin shell material types + 22, 54, 55, or 76 + eq.3: yes for all thin shell anisotropic + materials or mixed materials + eq.4: yes for all thick shell anisotropic + materials or mixed materials + eq.5: yes for thick and thin shells + + number of annealed parts ....................... 0 + + number of new part IDs for COMPOSITE option..... 0 + + flag for shell offset vectors ................. 0 + eq. 0: off + eq. 1: on + + flag for offset shell contact surface ......... 0 + eq. 0: off + eq. 1: on + eq. 2: on, but use contact thickness + + number of point constraints between shells .... 0 + + flag for input of beam orientation vectors .... 0 + + flag for input of beam offset vectors ......... 0 + + flag for input of beam warpage scalar nodes.... 0 + + flag for 12-node shell for thermal ............ 0 + + local shell coordinate system in type 6 shell.. 1 + eq. 0: uniform local coordinate system + eq. 1: variable local coordinate system + + Jacobian check on 1 point shells............... 0 + eq. 0: off + eq. 1: on -delete distorted element + eq. 2: on -terminate + eq. n: terminate when n elements are deleted + + Jacobian check on 4 point shells............... 0 + eq. 0: off + eq. 1: on -delete distorted element + eq. 2: on -terminate + eq. n: terminate when n elements are deleted + + part set ID for Jacobian checks................ 0 + + keep contact segment related to failed shell... 0 + eq. 0: off + eq. 1: on + delete free-free shells in Jacobian checks..... 0 + eq. 0: off + eq. 1: on + + part set ID for drill constraint force ........ 0 + scale factor for drill constraint force ....... 0.0000E+00 + + w mode deletion angle in degrees .............. 0.0000E+00 + + stretch ratio deletion (l/l0) ................. 0.0000E+00 + + flag for error exit in case of unwanted + interpolation of inital stresses .............. 0 + + number of shell part IDs for termination...... 0 + eq. 0: inactive + gt. 0: # part IDs where # failed are defined + + number of solid part IDs for termination...... 0 + eq. 0: inactive + gt. 0: # part IDs where # failed are defined + + integration rule for quadratic tetrahedrons.... 4 + eq. 4: 4 point integration formula + eq. 5: 5 point integration formula + + integration rule for quadratic shells.......... 2 + eq. 2: 2 point integration in plane + eq. 3: 3 point integration in plane + + stress output for solid element spotwelds...... 0 + eq. 1: global (default) + eq. 2: local + + # of solid elements with death times........... 0 + + # of beam elements with death times........... 0 + + # of shell elements with death times........... 0 + + # of thick shell elements with death times..... 0 + + # of box definitions for element deletion...... 0 + + # of parts to be annealed...................... 0 + + flag for input of elbow extra scalar nodes..... 0 + + flag for material stochastic variations........ 0 + + number of tailor welded blanks ................ 0 + + number of heat affected zone property sets..... 0 + + flag for loading segments with file option..... 0 + + flag for loading segments FSI link file........ 0 + + + number of solid elements with initial stress .. 0 + + number of sph elements with initial stress .. 0 + + number of beam elements with initial stress .. 0 + + number of shell elements with initial stress .. 0 + + number of shell elements with initial strain .. 0 + + maximum number of tensor data ................. 0 + + maximum number of history variables ........... 0 + + no. of thick shell elems with initial stress .. 0 + + number of solid elements with initial strain .. 0 + + number of solid elements with initial dof...... 0 + + number of nodes with initial geometry.......... 0 + + write nodes with initial geometry.............. 0 + = 0: do not write nodes + = 1: write nodes + + number of discrete element spheres............. 0 + + flag for initial transverse shear stresses .... 0 + = 0: keep transverse shear stresses (default) + = 1: set transverse shear stresses to zero + + number of of thick shells with inital strain... 0 + + + CONTROL CARD 13. Computation Options-Materials + + hourglass formulation.......................... 0 + eq.0 LS-DYNA versions 940 and after + eq.1 LS-DYNA versions 936 and before + + hourglass models + eq.1: standard viscous form + eq.2: flanagan-belytschko viscous form + 1pt volume integration for solids + eq.3: flanagan-belytschko viscous form + exact volume integration for solids + eq.4: flanagan-belytschko stiffness form + 1pt volume integration for solids + eq.5: flanagan-belytschko stiffness form + exact volume integration for solids + eq.6: bindeman-belytschko stiffness form + for 2d and 3d solid elements only + eq.9: puso stiffness form for 3d solid + elements only + + hourglass model (default)...................... 0 + + hourglass coefficient (default)................ 0.0000E+00 + + bulk viscosity type (default).................. 0 + eq.-2: standard +types 2,4,10,16,17 shells+IE + eq.-1: standard +types 2,4,10,16,17 shells + eq.+1: standard + + quadratic bulk viscosity coefficient........... 0.0000E+00 + + linear bulk viscosity coefficient.............. 0.0000E+00 + + bulk viscosity type for beams.................. 0 + eq.+1: standard + eq.+2: standard + IE + + flag for rayleigh damping input................ 0 + eq.0: off (default) + eq.1: on + + flag for rigid/deformable material switching... 1 + eq.1: off (default) + eq.2: on + eq.3: on and automatic switching + + thermal effects option......................... 0 + eq.0: no thermal effects + eq.n: nodal temps scaled by load ftn -n- + eq.-1: coupled thermal mechanical analysis + eq.-2: temperature data input option 2 + eq.-3: thermal solution + eq.-4: Read binary temperature file + eq.-9998: user defined load set temp. input + eq.-9999: temperature data input option 1 + + thermal curve ID used for dynamic relaxation... 0 + + super plastic forming input option............. 0 + eq.0: skip input + eq.1: read superplastic input section + + objective stress update for large Dt........... 0 + eq.0: off (default) + eq.1: on globally + eq.2: on for part subset + + default contact parameters input option........ 0 + eq.0: no + eq.1: yes + + number of reinforcement cards for mat 84&85.... 0 + + output interval for aea_crack database......... 0.0000E+00 + + number of non local materials.................. 0 + + neighbours arrays oversized of (%)............. 0 + + number of parts defined for adaptive failure... 0 + + number of elements with specified temperature.. 0 + + number of parts with spotweld rupture stress... 0 + + number of parts with spotweld rupture parametr. 0 + + number of spotweld lists....................... 0 + + number of rows of opt=10 spot weld failure data 0 + + + CONTROL CARD 14. Computation Options-Damping + + load curve specifying system damping........... 0 + eq.-1: system damping by material + eq. n: load curve n defines system damping + + optional constant for system damping........... 0.0000E+00 + + system damping scale factor for x-translation.. 0.1000E+01 + + system damping scale factor for y-translation.. 0.1000E+01 + + system damping scale factor for z-translation.. 0.1000E+01 + + system damping scale factor for x-rotation..... 0.1000E+01 + + system damping scale factor for y-rotation..... 0.1000E+01 + + system damping scale factor for z-rotation..... 0.1000E+01 + + stress initialization flag .................... 0 + eq.-1: dynamic relaxation (debug option) + eq.0: off + eq.1: dynamic relaxation + eq.2: deformed geometry + eq.3: dynamic relaxation with part set ID + eq.5: initialize implicitly + eq.-999:off-not activated by load curves + + convergence check interval (dynamic relaxation) 250 + + convergence tolerance for dynamic relaxation... 0.1000E-02 + + dynamic relaxation factor...................... 0.9950E+00 + + termination time for dynamic relaxation........ 0.0000E+00 + eq.0.0: convergence terminates relaxation + gt.0.0: termination at specified time + unless convergence is attained + + scale factor for dyn relax time step........... 0.9000E+00 + + automatic determination of dr factors.......... 0 + eq.0: off (default) + eq.1: on + + convergence tolerance for above option......... 0.0000E+00 + + active part set ID for dynamic relaxation ..... 0 + + + + CONTROL CARD 15. Computation Options-Contact + + scale factor for contact interface penalties... 0.1000E+00 + + scale factor for rigid wall penalties.......... 0.0000E+00 + + flag to activate MADYMO contact coupling....... 0 + eq.0: inactive + eq.1: active + + track initial penetrations in auto contacts.... 0 + eq.0: no, move node to contact surface + eq.1: yes, initial penetrations remain + + ignore initial separations in tied contacts.... 0 + eq.0: no, eliminate gaps most accurate + eq.1: yes, may lock rotations + + contact initial penetration check option....... 1 + eq.1: off (default) + eq.2: on + + thickness considered in type 3, 5 or 10 contact 0 + eq.0: off + eq.1: on, but rigid bodies excluded + eq.2: on, rigid bodies are included + + penalty stiffness option....................... 1 + eq.1: minimum master/slave value + eq.2: master segment stiffness (old way) + eq.3: slave node stiffness + eq.4: slave node area/mass weighted + eq.5: like 4 but k proportional to 1/thick + + thickness changes considered in type 4 contact. 0 + eq.0: no + eq.1: yes + + automatic reorientation option................. 1 + eq.1: on for automatic contact definitions + eq.2: on + eq.3: off + + memory allocation-user contact surface control 0 + gt.0: memory per interface passed to user + + memory allocation-user contact surface frict... 0 + gt.0: memory per interface passed to user + + number of time steps between contact searching. 0 + eq.0: LS-DYNA chooses value + + intermittent searching in type 3 contact....... 0 + eq.0: off (default) + eq.1: on + + release factor for extra searching option...... 0.4000E+01 + + treatment of nodes in eroding contact.......... 0 + eq.0: delete from calculation + eq.1: keep nodes of eroded solids + eq.2: keep nodes of eroded solids & shells + + calculation of frictional sliding energy....... 0 + eq.0: do not calculate + eq.1: calculate + + shell thickness in single surface contact...... 0 + eq.0: use characteristic shell dimension + eq.1: use actual shell thickness + + time step size override for eroding contact.... 0 + eq.0: contact time size may control dt + eq.1: contact is not considered for dt + + number of automatic positioning definitions.... 0 + + print slave node/segment in spotweld contact... 0 + eq.0: no + eq.1: yes, in D3HSP file + + option for unconstrained spotweld node/face.... 0 + eq.0: ignore + eq.1: terminate + eq.2: delete weld and continue + + delete spotweld if tied to failed shell........ 0 + eq.0: no + eq.1: yes + + number of friction table definitions........... 0 + + read in friction table for automatic contacts.. 0 + eq.0: no + ne.0: number of part pair defined for table + + read in spotweld failure table................. 0 + eq.0: no + ne.0: number of part pair defined for table + + contact thickness scaling option for welds..... 0.0000E+00 + eq.0.0: inactive + gt.0.0: scale factor on thickness + + beam spotweld radius scale factor for thinning. 0.0000E+00 + eq.0.0: inactive + gt.0.0: scale factor on radius + + read in smooth contact flags................... 0 + eq.0: no + eq.1: yes + Warning: in Shared Memory Program smooth option only + available for Forming type contact + + flag for eliminating faces on symmetry planes.. 0 + eq.0: use all faces + eq.1: delete faces from contact + + spotweld tension scaling load curve............ 0 + spotweld compression scaling load curve........ 0 + spotweld direction scaling table.(tension)..... 0 + spotweld direction scaling table (shear) ..... 0 + eq.0: table for tension scaling is used + spotweld print flag (on=1)..................... 0 + + number of contact volume definitions........... 0 + + flag to use one way node to surface erosion.... 0 + + flag for implicit rigidwall gap stiffness...... 1 + + eq.1: add initial gap stiffness + eq.2: do not add gap stiffness + + death time for gap stiffness................... 0.0000E+00 + + penalty scale factor for rigid walls........... 0.1000E+01 + + flag for covariant contact formulation......... 0 + + eq.0: covariant formulation not used + eq.1: covariant formulation used + + flag for offsetting thick thermal contact + surfaces in the thermal contacts............... 0 + + eq.0: no offset, if thickness is not included + contact will act on shell mid-surface + eq.1: offsets are applied so that contact + always act on the shell outer surfaces + + flag for shell segment edge shape.............. 0 + eq.0: shell edges assumed round (default) + eq.1: shell edges assumed square + + stiffness calculation for segment based contact 0 + eq.0: use material density (default) + eq.1: use nodal masses + + flag for consistent thermal contact algorithm.. 1 + lt.0: conduction evenly distributed (pre-R4) + eq.1: conduction weighted by shape functions, + reduced integration (default) + eq.2: conduction weighted by shape functions, + full integration + + flag for optional tied interface update ....... 0 + eq.0: integrate accelerations for v and u + eq.1: differentiate u to obtain v and a + + flag for overlapping force transducers......... 0 + eq.0: forces applied to first found (faster) + eq.1: forces applied to all transducers + + scale factor for contact interface mass scaling 0.0000E+00 + shell thickness scale factor for rigidwall .... 0.0000E+00 + flag of contact involving isogeometric ele .... 0 + eq.0: interp. node vs. interp. facet + eq.1: interp. node vs. isogeometric element + print out penetration info for mortar contact.. 0 + scale factor for contact pressure on thickness + shells......................................... 0.1000E+01 + + + CONTROL CARD 16. Computation Options-Parallel + + number of cpus for parallel computations....... 2 + + parallel right hand side assembly.............. 0 + eq.0: on (default) + eq.1: off + + flag for automatic subcycling.................. 0 + eq.0: off (default) + eq.1: on + + number of part IDs for mass scaled subcycling.. 0 + + flag for repeatability in parallel solution.... 2 + eq.1: on (ordered RHS summation-slower) + eq.2: off (default) + + use memory to parallelize repeatability option. 0 + eq.0: off + eq.1: on + maximum time step factor for subcycling........ 0 + + + CONTROL CARD 17. Computation Options-Coupling + + length conversion factor coupling.............. 0.1000E+01 + + time conversion factor coupling................ 0.1000E+01 + + force conversion factor coupling............... 0.1000E+01 + + material repositioning flag.................... 0 + eq.0: off + eq.1: input data defines repositioning + eq.2: no repositioning of defined nodes + + Flag to flip X-coordinates..................... 0 + + Flag to flip Y-coordinates..................... 0 + + Flag to flip Z-coordinates..................... 0 + + Idle time for LS-DYNA.......................... 0.0000E+00 + + Implicit coupling for springback............... 0 + eq.0: off (default) + eq.1: on + eq.2: seamless springback + + DYNAIN output format........................... 0 + eq. 0: ascii + eq. 1: binary + eq. 2: ascii and binary + eq.10: ascii (large) + eq.11: binary (large internal ASCII) + eq.12: ascii and binary (large) + + Mismatched acoustic coupling input flag........ 0 + eq.0: off + eq.1: on + + Two sided acoustic coupling input flag......... 0 + eq.0: off + eq.1: on + + Coupling with USA.............................. 0 + eq.0: off (default) + eq.1: on + + Number of steps for CAL3D/MADYMO3D subcycling.. 1 + + Number of MCOL coupled rigid bodies............ 0 + + Number of vehicles to be initialized........... 0 + + Coupling with CFD.............................. 0 + eq.0: off (default) + eq.1: FAST3D + eq.2: boundary element method + + + CONTROL CARD 18. Computation Options-Output Control + + printout of node, element, velocity input data. 0 + eq.0: on + eq.1: off + + time zero printout of element time step size... 0 + eq.0: no printout + eq.1: print dt for each element at t=0 + + problem status report interval in printer file. 100 + + number of cycles between restart dumps.........99999999 + + number of cycles between running restart dumps.99999999 + + number of files to rewrite running restart .... 1 + + node and element printout suppression.......... 0 + eq.1: nodal data is not echoed + eq.2: element data is not echoed + eq.3: node and element data is not echoed + debug information in messag file option........ 0 + eq.0: no + eq.1: yes + update of beam reference nodes................. 0 + eq.0: off + eq.1: on-unique reference nodes required + averaged acceleration-print/time history files. 0 + eq.0: no average (default) + eq.1: averaged between output intervals + eq.2: user defined filtering + output interval for interface file............. 0.4000E-03 + default print flag for the RBDOUT/MATSUM files 0 + eq.0: RBDOUT and MATSUM + eq.1: RBDOUT only + eq.2: MATSUM only + eq.3: no output + include eroded and lumped mass in MATSUM ...... 0 + eq.0: no + eq.1: yes + include 10-node connectivities in D3PLOT ...... 2 + eq.1: yes + eq.2: no + write spring forward database at termination... 0 + eq.0: no + eq.1: include all deformable nodes + eq.2: include nodes of material subset + d3plot and d3thdt binary output format......... 0 + eq.0 default + eq.1 32ieee + flush output file interval..................... 5000 + output interval for d3part database............ 0.0000E+00 + interval via load curve for part database...... 0 + number of part blocks.......................... 0 + Maximum number of messages..................... 0 + Print flag for digitized curve data............ 0 + Print info. of 1d belt created for 2d belt..... 0 + ELOUT shell output coordinate system flag...... 0 + eq.0 default + eq.1 local element coordinate system + eq.2 global coordinate sytstem + number of parts removed from d3plot ........... 0 + number of levels of timing at termination ..... 2 + max frequency of element failure summaries..... 1 + + + CONTROL CARD 19. Computation Options-Output Energy + + hourglass energy calculation................... 2 + eq.1: off (default) + eq.2: on + + rigid wall energy calculations................. 2 + eq.1: off (default) + eq.2: on + + contact energy calculation..................... 2 + eq.1: off + eq.2: on + + flag for rayleigh damping energy calculations.. 0 + eq.1: off (default) + eq.2: on + + flag for material energy in D3THDT file........ 2 + eq.1: off + eq.2: on (default) + + + CONTROL CARD 20. Computation Options-LS-POST Database + + time step between dumps of complete state data. 0.4000E-02 + + output interval for interface force database... 0.4000E-02 + + time step between dumps of time history data... 0.0000E+00 + + number of nodal printout blocks................ 0 + + number of solid element printout blocks........ 0 + + number of beam element printout blocks......... 0 + + number of discrete element printout blocks..... 0 + + number of seatbelt element printout blocks..... 0 + + number of shell element printout blocks........ 0 + + number of thick shell element printout blocks.. 0 + + load curve-interval between state data dumps... 0 + + behavior of state data dump curve.............. 1 + eq.1: load curve value added to current time + eq.2: plot time T=current t+curve at T + eq.3: plot at each ordinate point + + load curve-interval between force data dumps... 0 + + load curve-interval between history data dumps. 0 + + flag, user output into shell resultant vector.. 0 + eq.1: off (default) + eq.2: on, user subroutine is called + + number of subsystems for SSSTAT file .......... 0 + + behavior of intfor data curve.................. 1 + eq.1: load curve value added to current time + eq.2: plot time T=current t+curve at T + eq.3: plot at each ordinate point + + + CONTROL CARD 21. Computation Options LS-POST Database + + flag to write ls-post database during dyn rel.. 0 + eq.0: no database write (default) + eq.1: write database at convergence check + eq.n: write database at nth check + + number of extra history variables for solids... 2 + + number of integration points output/solid ..... 1 + + number of extra history var/int.pt for shells.. 0 + + number of integration points output/shell ..... 3 + lt.0: also output 4 points in plane + + flag for including strain tensor in database... 0 + eq.0: exclude (default) + eq.1: include strains (solid and shells) + + flag for including stress tensor in database... 1 + eq.1: include (default) + eq.2: exclude + + flag for including effective plastic strain.... 1 + eq.1: include (default) + eq.2: exclude + + flag for including shell resultants............ 1 + eq.1: include (default) + eq.2: exclude + + flag for including shell energy and thickness.. 1 + eq.1: include (default) + eq.2: exclude + + every state is written to a separate file...... 0 + eq.0: off (default) + eq.1: only one state per plotfile + + composite material stress output .............. 0 + eq.-1: same as 1, but fiber stress and strain + are engineering measured in material + 34 + eq. 0: global + eq. 1: local + eq. 2: local, additional information + output in place of shell resultants + + number of integration points output/beam ...... 0 + + data compression to eliminate rigid body data.. 1 + nodal velocities, and nodal accelerations + eq.1: off + eq.2: on -rigid bodies + eq.3: off-rigid bodies-on nodal data + eq.4: on -rigid bodies-on nodal data + + output shell element hourglass energy.......... 1 + eq.1: off + eq.2: on + + output shell element dt, mass, added mass...... 1 + eq.1: off + eq.2: output dt + eq.3: output mass + + peak pressure flag............................. 0 + eq.1: on + + filter parameter............................... 0.0000E+00 + + flag for solid element additional output....... 0 + eq.1: output 3 additional variables + eq.2: output 5 additional variables + + flag for scaled mass output to the d3plot file. 0 + eq.1: output mass increment + eq.2: output percentage increase + + flag for thermal data.......................... 1 + eq.0 or 1: output temperature + eq.2: output temperature and flux + eq.3: output temp, flux, and thick shell temps + + flag for including stress tensor at int. point 0 + eq.0: exclude (default) + eq.1: include stress (solid and shells) + + flag for including stress tensor at nodes ..... 0 + eq.0: exclude (default) + eq.1: include local stress (solid and shell) + eq.2: include global stress (solid and shell) + + flag for including strain tensor at int. point 0 + eq.0: exclude (default) + eq.1: include strains (solid and shells) + + flag for including strain tensor at nodes ..... 0 + eq.0: exclude (default) + eq.1: include local strain (solid and shell) + eq.2: include global strain (solid and shell) + output interval for blast force database....... 0.0000E+00 + lt.0: interval specified by load curve + + + CONTROL CARD 22. Computation Options-ASCII Output I + + output interval for cross section forces....... 0.0000E+00 + output interval for rigid wall forces ......... 0.4000E-03 + output interval for nodal print blocks......... 0.0000E+00 + output interval for element print blocks....... 0.0000E+00 + output interval for global/subsystem statistics 0.4000E-03 + output interval for discrete elements.......... 0.0000E+00 + output interval for material summaries......... 0.4000E-03 + output interval for nodal interface forces..... 0.0000E+00 + output mass properties in subsystem statistics. 0 + output mass properties in global statistics.... 0 + additional history variables output-solids..... 0 + additional history variables output-shells..... 0 + additional history variables output-tshells.... 0 + additional history variables output-beams...... 0 + + + + CONTROL CARD 23. Computation Options-ASCII Output II + + output interval for resultant interface forces. 0.4000E-03 + output interval for smug nodal data............ 0.0000E+00 + output interval for sp constraint forces....... 0.0000E+00 + output interval for nodal constraint forces.... 0.0000E+00 + output interval for airbag statistics.......... 0.0000E+00 + output interval for avs filter................. 0.0000E+00 + output interval for nodal force groups......... 0.0000E+00 + output interval for b.c. forces and energy .... 0.0000E+00 + + + + CONTROL CARD 24. Computation Options-ASCII Output III + + output interval for rigid body data............ 0.0000E+00 + output interval for geometric contact entities. 0.0000E+00 + output interval for mpgs database............. 0.0000E+00 + output interval for movie database............. 0.0000E+00 + output interval for interface energies......... 0.4000E-03 + output interval for seatbelt response.......... 0.0000E+00 + output interval for joint forces............... 0.0000E+00 + output interval for tracer particles........... 0.0000E+00 + output interval for discrete beam data......... 0.0000E+00 + output type for discrete beam data ............ 0 + curve id for discrete beam data ............... 0 + option for ascii output time for discrete beam. 0 + + output interval for pulley element data........ 0.0000E+00 + output type for pulley element data ........... 0 + curve id for pulley element data .............. 0 + option for ascii output time for pulley element 0 + + + + CONTROL CARD 25. ALE 1st card + + Default continuum treatment.................... 0 + eq.1: Lagrangian (default) + eq.2: Eulerian + eq.3: Arbitrary Lagrangian Eulerian + eq.4: Eulerian Ambient + + Number of cycles between rezones............... 0 + + Advection formulation.......................... 0 + eq.1: Donor Cell + HIS + eq.2: Van Leer + HIS (default) + + Relaxation factor 1 (simple average)........... -0.1000E+01 + + Relaxation factor 2 (volume weighting)......... 0.0000E+00 + + Relaxation factor 3 (isoparametric)............ 0.0000E+00 + + Relaxation factor 4 (equipotential)............ 0.0000E+00 + + Relaxation factor 5 (equilibrium).............. 0.0000E+00 + + Output interval for euler statistics........... 0.0000E+00 + + + CONTROL CARD 26. ALE 2nd card + + time to begin rezoning......................... 0.0000E+00 + + time to end rezoning........................... 0.0000E+00 + + SALE advection factor.......................... 0.0000E+00 + + number of void materials....................... 0 + + Void factor.................................... 0.1000E-05 + + Automatic euler boundary condition flag........ 0.0000E+00 + eq.0: Off. + eq.1: On with stick condition. + eq.2: On with slip condition. + + Number of non-interacting Euler materials...... 0 + + Number of multi-material Euler groups.......... 0 + + Reference pressure............................. 0.0000E+00 + + Pressure equilibrium........................... 0 + eq.0: Off + eq.1: On + Number of parts considered in ALE convection... 0 + + Number of cycles between ALE coupling.......... 1 + + Number of cycles between ALE bucket sort....... 50 + + Number of ALE Multi-material group switching... 0 + + Number of ALE mixing length.................... 0 + + Number of ALE coupling to nodes ............... 0 + + Number of ALE essential boundaries ............ 0 + + + CPM output format.............................. 11 + eq.11: Version 3 (full output) + eq.21: Version 4 (full output) + eq.22: (coordinates) + eq.23: (summary) + # of CPM airbag interaction.................... 0 + + # of cycle for CPM repartition................. 5 + CPM time step control.......................... 0 + eq.0: no control + eq.1: set CPM timestep size as 1 usec + + + CONTROL CARD 37. SPH 1st card + + Sort frequency................................. 1 + + Box activation................................. 0 + + First option................................... 0.1000E+11 + + Space dimension................................ 2 + + Memory allocation for neighbors MEMORY......... 150 + allocation type:........................ DYNAMIC + + Particle approximation......................... 0 + eq.0: Standard gather form (Lacome-Vila 1998) + eq.1: Renormalization (Ben Moussa-Vila 1998) + eq.2: Symmetric formulation (Benz 1989) + eq.3: Symmetric renormalization (Libersky 1993) + eq.4: Elliptic smoothing length + eq.5: Fluid formulation + eq.6: Renormalized fluid formulation + eq.7: Total Lagrangian formulation + eq.8: Renormalized Total Lagrangian formulation + + Start time of SPH analysis..................... 0.0000E+00 + + Maximum velocity............................... 0.1000E+16 + + Contact definition between SPH parts........... 0 + eq.0: Approximation is computed + eq.1: Approximation is not computed + + Time derivative for smoothing length........... 0 + Initial smooth length computation option....... 0 + Display options for SPH particles.............. 0 + Erosion control option for SPH particles....... 0 + Contact treatment for deactivated particles.... 0 + eq.0: Contact remains active + eq.1: Contact becomes inactive + + Artificial viscosity for SPH particles......... 0 + eq.0: Monaghan type bulk viscosity (change + to bulk coefficents recommended) + eq.1: Solid elements type bulk viscosity + + + + CONTROL CARD 38. SPH group number............. 1 + + Number of particles............................ 25 + + Number of material............................. 101 + + Smoothing length constant...................... 0.1300E+01 + + Minimum smoothing length ...................... 0.2000E+00 + + Maximum smoothing length ...................... 0.2000E+01 + + Initial smoothing length ...................... 0.0000E+00 + eq.0: calculated by LS-DYNA + + Death time for SPH material.................... 0.1000E+21 + + Start time for SPH material.................... 0.0000E+00 + + + + + CONTROL CARD 50. EFG + + ispline ....................................... 0 + + idila.......................................... 0 + + inint.......................................... 0 + + iefgs.......................................... 0 + + intfs.......................................... 0 + + + + p a r t d e f i n i t i o n s + + material type + eq.1 isotropic + eq.2 orthotropic + eq.3 elastoplastic ( von mises ) + eq.4 thermo-elastic-plastic + eq.5 soil and crushable foam model + eq.6 viscoelastic model + eq.7 blatz-ko finite elastic rubber + eq.8 high explosive model + eq.9 null material + eq.10 hydrodynamic - elastic-plastic + eq.11 steinberg - guinan model + eq.12 isotropic elastic-plastic + eq.13 elastic-plastic with failure + eq.14 crushable foam with failure + eq.15 johnson/cook plasticity model + eq.16 pseudo tensor geological model + eq.17 elastoplastic with fracture + eq.18 power law isotropic plasticity + eq.19 strainrate sensitive plasticity + eq.20 rigid material + eq.21 thermal orthotropic(12 constants) + eq.22 composite material damage model + eq.23 thermal orthotropic(12 curves) + eq.24 piecewise linear plasticity + eq.25 soil cap model by taylor + eq.26 crushable metallic honeycomb + eq.27 hyperelastic mooney-rivlin + eq.28 shell/beam resultant plasticity + eq.29 beam resultant force limited + eq.30 shape-memory alloy + eq.31 frazer-nash rubber model + eq.32 safety glass + eq.33 barlat's anisotropic plasticity + eq.34 fabric + eq.35 elastoplastic (green-naghdi rate) + eq.36 barlat's 3-parameter plasticity + eq.37 anisotropic plasticity model + eq.38 blatz-ko finite elastic foam + eq.39 fld anisotropic plasticity + eq.40 nonlinear orthotropic elastic + eq.41-50 user material models + eq.51 bammann plasticity model + eq.52 sandia damage model + eq.53 crushable cellular foam + eq.54 composite damage model(hashin) + eq.55 composite damage model(tsai-wu) + eq.57 low density urethane foam + eq.58 laminated composite fabric + eq.59 composite failure + eq.60 viscous glass model model + eq.61 maxwell/kelvin viscoelastic + eq.62 viscous foam model + eq.63 crushable foam model + eq.64 rate sensitive powerlaw plasticity + eq.65 modified armstrong-zerrilli model + eq.66 elastic resultant beams + eq.67 nonlinear elastic via load curves + eq.68 plastic resultant via load curves + eq.69 sid impact dummy damper + eq.70 hydraulic/gas damper + eq.71 cable + eq.72 k & c concrete damage + eq.73 low density viscous foam + eq.74 elastic spring discrete beam + eq.75 bilkhu/dubois crushable foam + eq.76 linear viscoelastic + eq.77 general hyperelastic/ogden + eq.78 soil/concrete + eq.79 hysteretic soil + eq.80 ramberg-osgood + eq.81 plastic damage model + eq.82 plastic orthotropic damage model + eq.83 fu-chang rate sensitive foam model + eq.84 rs strainrate sensitive concrete + eq.85 reinforced concrete (aea winfrith, 1990) + eq.86 orthotropic viscoelastic + eq.87 cellular viscoelastic rubber + eq.88 material threshold stress (mts) + eq.89 plasticity polymer + eq.90 acoustic media + eq.91 hyperelastic soft tissue + eq.92 visco-hyperelastic soft tissue + eq.93 elastic 6-dof spring + eq.94 inelastic spring discrete beam + eq.95 inelastic 6-dof spring + eq.96 brittle damage + eq.97 general joint discrete beam + eq.98 simplified johnson cook + eq.99 simplified johnson cook with damage + eq.100 spotweld material + eq.101 ge rate sensitive plasticity + eq.102 inverse hyperbolic sine + eq.103 viscoplastic model (ntnu, 1996) + eq.104 damage model 1 (ntnu, 1997) + eq.105 damage model 2 (ntnu, 1997) + eq.106 elastic viscoplastic thermal + eq.107 modified johnson cook + eq.108 orthotropic elastic plastic + eq.110 johnson/holmquist ceramics + eq.111 johnson/holmquist concrete + eq.112 finite elastic strain plasticity + eq.113 trip for austenitic stainless + eq.114 layered piecewise linear plasticity + eq.115 unified creep + eq.116 composite lay up + eq.117 composite matrix + eq.118 composite direct + eq.119 general nonlinear 6dof discrete beam + eq.120 gurson + eq.121 general nonlinear 1dof discrete beam + eq.122 hill 3r + eq.123 modified piecewise linear plasticity + eq.124 compression-tension plasticity + eq.125 yoshida kinematic plasticity model + eq.126 crushable metallic honeycomb + eq.127 arruda-boyce hyper-viscoelastic + eq.128 heart tissue + eq.129 lung hyper-viscoelastic + eq.130 special orthotropic + eq.131 tno isotropic smeared crack model + eq.132 tno orthotropic smeared crack model + eq.133 barlat yld2000 + eq.135 wtm/stm + eq.136 orthotropic vegter model + eq.137 anisotropic ito-goya model + eq.139 modified resultant beam force limited + eq.140 vacuum + eq.141 rate sensitive polymer + eq.142 anisotropic crushable foam + eq.143 aptek orthotropic wood + eq.144 pitzer crushable foam + eq.145 continuous surface cap with damage + eq.146 1dof generalized spring + eq.147 fhwa soil + eq.148 gas mixture + eq.150 cfd - constant properties + eq.152 hyperbolic tangent thermal + eq.153 damage model 3 + eq.154 deshpande fleck foam model + eq.155 compression-tension eos model + eq.156 muscle model + eq.157 anisotropic elastic plastic + eq.158 rate sensitive composite fabric + eq.159 continuous surface cap + eq.161 composite msc + eq.162 composite dmg msc + eq.163 modified crushable foam + eq.164 brain linear viscoelastic + eq.165 plastic nonlinear kinematic + eq.166 moment curvature beam + eq.167 mccormick + eq.168 polymer + eq.169 arup adhesive + eq.170 resultant anisotropic + eq.171 steel concentric brace + eq.172 concrete ec2 + eq.173 mohr couloumb + eq.174 rc beam + eq.176 quasilinear viscoelastic + eq.177 hill foam + eq.178 viscoelastic hill foam + eq.179 low density synthetic foam + eq.180 low density synthetic foam ortho + eq.181 simplified rubber model + eq.182 viscoelastic plastic model + eq.187 semi-analytical model for polymers + eq.188 thermo elastic viscoplastic creep + eq.189 anisotropic thermo elastic + eq.190 barlat 3-parameter fld plasticity + eq.191 seismic beam + eq.192 soil brick + eq.193 drucker prager + eq.194 rc shear wall + eq.195 concrete beam + eq.196 general spring discrete beam + eq.197 seismic isolator + eq.198 jointed rock + eq.202 steel EC3 + eq.203 hysteretic reinforcement + eq.205 discrete beam surface contact + eq.206 Park Ang beam + eq.208 bolt beam + eq.213 awg composite damage + eq.214 dry fabric + eq.219 codam2 + eq.220 rigid material discrete particles + eq.221 orthotropic simplified damage + eq.222 genoa material for laminates + eq.223 orthotropic advanced damage + eq.224 tabulated johnson cook + eq.225 viscoplastic mixed hardening + eq.228 tabulated johnson cook aniso + eq.230 elastic pml + eq.231 acoustic pml + eq.232 biot hysteretic + eq.233 cazacu barlat + eq.234 viscoelastic loose fabric + eq.235 micromechanics dry fabric + eq.236 silicon carbid coating on RCC + eq.237 hysteretic pml + eq.242 barlat yld2000 Yoshida hardening + eq.243 hill 90 + eq.244 ultra high strength steel + eq.251 tailored properties + eq.252 toughened adhesive polymer + eq.255 piecewise linear plastic thermal + eq.256 amorphous solids finite stain + eq.261 laminated fracture daimler pinho + eq.262 laminated fracture daimler camanho + eq.266 tissue dispersed + eq.267 eight chain rubber + eq.269 bergstrom-boyce rubber model + eq.270 computational welding mechanics model + eq.271 powder compaction model + eq.272 RHT concrete + eq.273 CDPM concrete + eq.274 paper + equation-of-state types + eq.1 linear polynomial + eq.2 jwl high explosive + eq.3 sack tuesday high explosive + eq.4 gruneisen + eq.5 ratio of polynomials + eq.6 linear polynomial with source + eq.7 initiation and reaction in he + eq.8 compaction + eq.9 tabulated + eq.11 tensor pore collapse + eq.14 jwlb high explosive + eq.15 one-dimensional gasket + eq.16 mie-gruneisen with p-alpha + hourglass models + eq.1 viscous + eq.2 flanagan-belytschko viscous form + eq.3 full flanagan-belytschko viscous form + (constant stress solid elements) + eq.4 flanagan-belytschko stiffness form + eq.5 full flanagan-belytschko stiffness form + eq.6 bindeman-belytschko stiffness form + (solid 2d and 3d elements) + eq.7 linear total strain stiffness form + (solid 2d and 3d elements) + eq.9 puso stiffness form (solid 3d elements) + eq.10 cosserat total strain stiffness form + (solid 3d elements) + bulk viscosity models + eq.1 standard + defaults + hourglass model....................... 2 + hourglass coefficient................. 1.00000E-01 + bulk viscosity type................... 1 + quadratic bulk viscosity coefficient.. 1.50000E+00 + linear bulk viscosity coefficient..... 6.00000E-02 + + *********************************************************************** + + + + + part id ..................... 101 + section id ..................... 101 + material id ..................... 1 + section title .................. + + material title .................. + + material type .............. 3 + equation-of-state type ..... 0 + hourglass type ............. 2 + bulk viscosity type ........ 1 + + density .......................... = 2.71000E-03 + hourglass coefficient ............ = 1.00000E-01 + quadratic bulk viscosity ......... = 1.50000E+00 + linear bulk viscosity ............ = 6.00000E-02 + element type ..................... = 0 + eq.0: 4, 6, 8, 10-node solid element or SPH element + eq.1: 2-node beam or truss or 2D shell element + eq.2: 3, 4-node membrane/shell or 2D continuum element + eq.3: 8-node thick shell element + + flag for bulk viscosity in shells. = 0 + flag for rbdout/matsum output ... = 0 + eq.0: rbdout and matsum + eq.1: rbdout only + eq.2: matsum only + eq.3: no output + static coefficient of friction ... = 0.00000E+00 + kinetic coefficient of friction... = 0.00000E+00 + exponential decay coefficient .... = 0.00000E+00 + viscous friction coefficient ..... = 0.00000E+00 + optional contact thickness ....... = 0.00000E+00 + optional thickness scale factor... = 0.00000E+00 + local penalty scale factor........ = 0.00000E+00 + flag for adaptive remeshing ...... = 0 + eq.0: inactive + eq.1: h-adaptive only + eq.2: r-adaptive only + rayleigh damping coefficient...... = 0.00000E+00 + e ................................ = 6.89000E+04 + vnu .............................. = 3.30000E-01 + yield ............................ = 1.17000E+02 + e (harden) ....................... = 6.80000E+00 + hardening parmeter ............... = 1.00000E+00 + strainrate parameter, c .......... = 0.00000E+00 + strainrate parameter, p .......... = 0.00000E+00 + formulation for rate effects ..... = 0.00000E+00 + eq.0.0: default + eq.1.0: viscoplastic + failure strain for erosion........ = 0.00000E+00 + solid formulation ............... = 1 + eq.-2: 8 point integration-3dof/node + for poor aspect ratio elements + eq.-1: 8 point integration-3dof/node + for poor aspect ratio elements + (efficient variant of -2 but + prone to some hourglassing) + eq. 1: 1 point integration + eq. 2: 8 point integration-3dof/node + eq. 3: 14 point integration-6dof/node + eq. 4: 5 point tetrahedron-6dof/node + eq. 5: 1 point ale + eq. 6: 1 point eulerian + eq. 7: 1 point eulerian ambient + eq. 8: 1 point acoustic + eq. 9: 1 point corotational + eq.10: 1 point tetrahedron + eq.11: multi-material eulerian + eq.12: eulerian with void + eq.13: nodal pressure tetrahedron + eq.14: 8 point acoustic + eq.15: 2 point pentahedron + eq.16: 10-node quadratic tetrahedron + eq.17: 10-node composite tetrahedron + eq.18: linear static element + eq.19: 8-node 2x2 cohesive + eq.20: 8-node 2x2 cohesive with offsets for shells + eq.21: 6-node 1x1 cohesive + eq.22: 6-node 1x1 cohesive with offsets for shells + eq.41: efg 3d + eq.42: efg 3d for 4-noded background + eq.99: elastic vibration element + corotational local coord. ........ = 0 + eq. 0: not requested + eq. 1: requested + + *********************************************************************** + + + null shells for visualization + + part id ..................... 1 + section id ..................... -12345677 + material id ..................... 0 + section title .................. + + material title .................. + + material type .............. 9 + equation-of-state type ..... 0 + hourglass type ............. 2 + bulk viscosity type ........ 1 + + density .......................... = 1.30000E-13 + hourglass coefficient (membrane).. = 1.00000E-01 + hourglass coefficient (rotation).. = 1.00000E-01 + hourglass coefficient (warping ).. = 1.00000E-01 + quadratic bulk viscosity ......... = 1.50000E+00 + linear bulk viscosity ............ = 6.00000E-02 + element type ..................... = 2 + eq.0: 4, 6, 8, 10-node solid element or SPH element + eq.1: 2-node beam or truss or 2D shell element + eq.2: 3, 4-node membrane/shell or 2D continuum element + eq.3: 8-node thick shell element + + flag for bulk viscosity in shells. = 0 + flag for rbdout/matsum output ... = 0 + eq.0: rbdout and matsum + eq.1: rbdout only + eq.2: matsum only + eq.3: no output + static coefficient of friction ... = 0.00000E+00 + kinetic coefficient of friction... = 0.00000E+00 + exponential decay coefficient .... = 0.00000E+00 + viscous friction coefficient ..... = 0.00000E+00 + optional contact thickness ....... = 0.00000E+00 + optional thickness scale factor... = 0.00000E+00 + local penalty scale factor........ = 0.00000E+00 + flag for adaptive remeshing ...... = 0 + eq.0: inactive + eq.1: h-adaptive only + eq.2: r-adaptive only + rayleigh damping coefficient...... = 0.00000E+00 + pressure cutoff .................. = 0.00000E+00 + viscosity coefficient ............ = 0.00000E+00 + relative volume for tensile fail.. = 0.00000E+00 + relative volume for compres fail.. = 0.00000E+00 + e ..(null shells and beams)....... = 0.00000E+00 + vnu (null shells and beams)....... = 0.00000E+00 + shear area factor ................ = 1.00000E+00 + thru-thickness integration points = 2.00000E+00 + print out option ................. = 3.00000E+00 + eq.1.0:average resultants & fiber lengths + eq.2.0:resultants at plan points & fiber lengths + eq.3.0:resultants,stresses all points & fiber lengths + + integration rule ................. = 0.00000E+00 + lt.0.0:absolute value is specified rule # + eq.0.0:gauss (trapezoidal if > 10 IP) + eq.1.0:trapezoidal rule + shell formulation ................ = 2 + eq. 1: hughes-liu + eq. 2: belytschko-tsay + eq. 3: bciz + eq. 4: c0-triangular element + eq. 5: membrane element + eq. 6: s/r hughes-liu + eq. 7: s/r co-rotational hughes-liu + eq. 8: belytschko-leviathan + eq. 9: fully integrated membrane + eq. 10: belytschko-wong-chiang + eq. 11: fast hughes-liu + eq. 12: 2d plane stress + eq. 13: 2d plane strain + eq. 14: 2d axisymmetric (area wgt) + eq. 15: 2d axisymmetric (volume wgt) + eq. 16: fully integrated element + eq. 17: dkt element + eq. 18: dkq-dkt linear element + eq. 20: assumed strain linear element + eq. 21: assumed strain linear elem(5DOF) + eq. 22: linear shear panel element(3DOF) + eq. 23: 8-node quadratic quadrilateral + eq. 24: 6-node quadratic triangular + eq. 25: belytschko-tsay with + thickness stretch + eq. 26: fully integrated element with + thickness stretch + eq. 27: c0-triangular element with + thickness stretch + eq. 29: cohesive element + eq. 41: meshfree shell local projection + eq. 42: meshfree shell global projection + eq. 43: meshfree plane strain + eq. 44: meshfree axisymmetric solid + eq. 46: cohesive element + eq. 47: cohesive with shell offsets + eq. 55: 8-node 2D plane strain fracture + eq. 98: interpolation shell element + eq. 99: elastic vibration element + eq. 201: isogeometric nurbs element + ge.1000: user defined (generalized) shell + shell thickness: node 1 .. = 1.00000E-09 + node 2 .. = 1.00000E-09 + node 3 .. = 1.00000E-09 + node 4 .. = 1.00000E-09 + + reference surface ................ = 0.00000E+00 + eq. 1.0:top + eq. 0.0:middle + eq.-1.0:bottom + + mass per unit area ............... = 0.00000E+00 + + flag for discontinuous thickness + field for elements with thickness + stretch .......................... = 2 + eq. 0: default is 1 + eq. 1: thickness field is continuous + eq. 2: thickness field is discontinous + + + + n o d a l p o i n t c o o r d i n a t e s + + node ID trnbc x-ord y-ord z-ord rotbc + 1001801 0.0 0.4998E+00 -0.1105E+02 0.0000E+00 0.0 + 1001802 0.0 0.7115E+00 -0.1105E+02 0.0000E+00 0.0 + 1001803 0.0 0.9232E+00 -0.1105E+02 0.0000E+00 0.0 + 1001804 0.0 0.1135E+01 -0.1105E+02 0.0000E+00 0.0 + 1001805 0.0 0.1347E+01 -0.1105E+02 0.0000E+00 0.0 + 1001921 0.0 0.4998E+00 -0.1086E+02 0.0000E+00 0.0 + 1001922 0.0 0.7115E+00 -0.1086E+02 0.0000E+00 0.0 + 1001923 0.0 0.9232E+00 -0.1086E+02 0.0000E+00 0.0 + 1001924 0.0 0.1135E+01 -0.1086E+02 0.0000E+00 0.0 + 1001925 0.0 0.1347E+01 -0.1086E+02 0.0000E+00 0.0 + 1002041 0.0 0.4998E+00 -0.1067E+02 0.0000E+00 0.0 + 1002042 0.0 0.7115E+00 -0.1067E+02 0.0000E+00 0.0 + 1002043 0.0 0.9232E+00 -0.1067E+02 0.0000E+00 0.0 + 1002044 0.0 0.1135E+01 -0.1067E+02 0.0000E+00 0.0 + 1002045 0.0 0.1347E+01 -0.1067E+02 0.0000E+00 0.0 + 1002161 0.0 0.4998E+00 -0.1048E+02 0.0000E+00 0.0 + 1002162 0.0 0.7115E+00 -0.1048E+02 0.0000E+00 0.0 + 1002163 0.0 0.9232E+00 -0.1048E+02 0.0000E+00 0.0 + 1002164 0.0 0.1135E+01 -0.1048E+02 0.0000E+00 0.0 + 1002165 0.0 0.1347E+01 -0.1048E+02 0.0000E+00 0.0 + 1002281 0.0 0.4998E+00 -0.1029E+02 0.0000E+00 0.0 + 1002282 0.0 0.7115E+00 -0.1029E+02 0.0000E+00 0.0 + 1002283 0.0 0.9232E+00 -0.1029E+02 0.0000E+00 0.0 + 1002284 0.0 0.1135E+01 -0.1029E+02 0.0000E+00 0.0 + 1002285 0.0 0.1347E+01 -0.1029E+02 0.0000E+00 0.0 + 1002286 7.0 0.0000E+00 -0.1026E+02 0.2540E-01 7.0 + 1002287 7.0 0.0000E+00 -0.1026E+02 -0.2540E-01 7.0 + 1002288 7.0 0.0000E+00 -0.1107E+02 -0.2540E-01 7.0 + 1002289 7.0 0.0000E+00 -0.1107E+02 0.2540E-01 7.0 + + + + n o d a l s p c s u m m a r y o n *NODE cards + boundary conditions (on=1) + node x y z rx ry rz + 1002286 1 1 1 1 1 1 + 1002287 1 1 1 1 1 1 + 1002288 1 1 1 1 1 1 + 1002289 1 1 1 1 1 1 + + + + s h e l l e l e m e n t s + + elem id part id node1 node2 node3 node4 + thick1 thick2 thick3 thick4 angle offset + 1 1 1002286 1002287 1002288 1002289 + 1.0000E-09 1.0000E-09 1.0000E-09 1.0000E-09 0.0000E+00 0.0000E+00 + + *** Warning 21129 (STR+1129) + shell element, ID 1 violates heuristic shape criterion + area/(longest diagonal)/(longest diagonal) equals: 6.2257E-02 + which may be too small (< 0.1) to permit a stable calculation. + + + + S P H e l e m e n t m a s s d a t a + + element id mat id mass + 1001801 101 0.1093E-03 + 1002045 101 0.1093E-03 + 1002161 101 0.1093E-03 + 1002162 101 0.1093E-03 + 1002163 101 0.1093E-03 + 1002164 101 0.1093E-03 + 1002165 101 0.1093E-03 + 1002281 101 0.1093E-03 + 1002282 101 0.1093E-03 + 1002283 101 0.1093E-03 + 1002284 101 0.1093E-03 + 1002044 101 0.1093E-03 + 1002043 101 0.1093E-03 + 1002042 101 0.1093E-03 + 1001802 101 0.1093E-03 + 1001803 101 0.1093E-03 + 1001804 101 0.1093E-03 + 1001805 101 0.1093E-03 + 1001921 101 0.1093E-03 + 1001922 101 0.1093E-03 + 1001923 101 0.1093E-03 + 1001924 101 0.1093E-03 + 1001925 101 0.1093E-03 + 1002041 101 0.1093E-03 + 1002285 101 0.1093E-03 + + + + r i g i d w a l l d e f i n i t i o n s + + + + + rigidwall ID = 1 + # of slave nodes = 29 + birth time = 0.00000E+00 + death time = 0.10000E+21 + penalty scale factor = 0.10000E+01 + moving rigidwall flag = 0 + eq.1: flat rigidwall has mass and vel. + eq.2: prescribed velocity history + eq.3: prescribed displacement history + generalized rigidwall type = 0 + eq.0: flat of infinite extent + eq.1: flat with defined size + eq.2: extra nodes and softening + eq.3: options 2 and 3 active + eq.4: prescribed motion flat plate + eq.5: prescribed motion cylinder + eq.6: prescribed motion sphere + eq.7: prescribed motion prism + eq.8: prescribed motion cylinder (interior) + eq.9: prescribed motion sphere (interior) + stick condtion = 0.00000E+00 + eq.0: frictionless sliding + gt.0.and.lt.1:frictional sliding + eq.1: sticking + eq.2: normal weld + eq.3: sticking weld + + coordinates of orientation vector are + i j + 0.0000E+00 0.1000E+01 + 0.0000E+00 0.0000E+00 + 0.0000E+00 0.0000E+00 + slave nodes + 1. 1001801 + 2. 1001802 + 3. 1001803 + 4. 1001804 + 5. 1001805 + 6. 1001921 + 7. 1001922 + 8. 1001923 + 9. 1001924 + 10. 1001925 + 11. 1002041 + 12. 1002042 + 13. 1002043 + 14. 1002044 + 15. 1002045 + 16. 1002161 + 17. 1002162 + 18. 1002163 + 19. 1002164 + 20. 1002165 + 21. 1002281 + 22. 1002282 + 23. 1002283 + 24. 1002284 + 25. 1002285 + 26. 1002286 + 27. 1002287 + 28. 1002288 + 29. 1002289 + + + + n o d a l p o i n t v e l o c i t i e s + + node id x-vel y-vel z-vel + x-rot y-rot z-rot + 1001801 -5.0000E+01 0.0000E+00 0.0000E+00 + 0.0000E+00 0.0000E+00 0.0000E+00 + 1001802 -5.0000E+01 0.0000E+00 0.0000E+00 + 0.0000E+00 0.0000E+00 0.0000E+00 + 1001803 -5.0000E+01 0.0000E+00 0.0000E+00 + 0.0000E+00 0.0000E+00 0.0000E+00 + 1001804 -5.0000E+01 0.0000E+00 0.0000E+00 + 0.0000E+00 0.0000E+00 0.0000E+00 + 1001805 -5.0000E+01 0.0000E+00 0.0000E+00 + 0.0000E+00 0.0000E+00 0.0000E+00 + 1001921 -5.0000E+01 0.0000E+00 0.0000E+00 + 0.0000E+00 0.0000E+00 0.0000E+00 + 1001922 -5.0000E+01 0.0000E+00 0.0000E+00 + 0.0000E+00 0.0000E+00 0.0000E+00 + 1001923 -5.0000E+01 0.0000E+00 0.0000E+00 + 0.0000E+00 0.0000E+00 0.0000E+00 + 1001924 -5.0000E+01 0.0000E+00 0.0000E+00 + 0.0000E+00 0.0000E+00 0.0000E+00 + 1001925 -5.0000E+01 0.0000E+00 0.0000E+00 + 0.0000E+00 0.0000E+00 0.0000E+00 + 1002041 -5.0000E+01 0.0000E+00 0.0000E+00 + 0.0000E+00 0.0000E+00 0.0000E+00 + 1002042 -5.0000E+01 0.0000E+00 0.0000E+00 + 0.0000E+00 0.0000E+00 0.0000E+00 + 1002043 -5.0000E+01 0.0000E+00 0.0000E+00 + 0.0000E+00 0.0000E+00 0.0000E+00 + 1002044 -5.0000E+01 0.0000E+00 0.0000E+00 + 0.0000E+00 0.0000E+00 0.0000E+00 + 1002045 -5.0000E+01 0.0000E+00 0.0000E+00 + 0.0000E+00 0.0000E+00 0.0000E+00 + 1002161 -5.0000E+01 0.0000E+00 0.0000E+00 + 0.0000E+00 0.0000E+00 0.0000E+00 + 1002162 -5.0000E+01 0.0000E+00 0.0000E+00 + 0.0000E+00 0.0000E+00 0.0000E+00 + 1002163 -5.0000E+01 0.0000E+00 0.0000E+00 + 0.0000E+00 0.0000E+00 0.0000E+00 + 1002164 -5.0000E+01 0.0000E+00 0.0000E+00 + 0.0000E+00 0.0000E+00 0.0000E+00 + 1002165 -5.0000E+01 0.0000E+00 0.0000E+00 + 0.0000E+00 0.0000E+00 0.0000E+00 + 1002281 -5.0000E+01 0.0000E+00 0.0000E+00 + 0.0000E+00 0.0000E+00 0.0000E+00 + 1002282 -5.0000E+01 0.0000E+00 0.0000E+00 + 0.0000E+00 0.0000E+00 0.0000E+00 + 1002283 -5.0000E+01 0.0000E+00 0.0000E+00 + 0.0000E+00 0.0000E+00 0.0000E+00 + 1002284 -5.0000E+01 0.0000E+00 0.0000E+00 + 0.0000E+00 0.0000E+00 0.0000E+00 + 1002285 -5.0000E+01 0.0000E+00 0.0000E+00 + 0.0000E+00 0.0000E+00 0.0000E+00 + 1002286 -5.0000E+01 0.0000E+00 0.0000E+00 + 0.0000E+00 0.0000E+00 0.0000E+00 + 1002287 -5.0000E+01 0.0000E+00 0.0000E+00 + 0.0000E+00 0.0000E+00 0.0000E+00 + 1002288 -5.0000E+01 0.0000E+00 0.0000E+00 + 0.0000E+00 0.0000E+00 0.0000E+00 + 1002289 -5.0000E+01 0.0000E+00 0.0000E+00 + 0.0000E+00 0.0000E+00 0.0000E+00 + + *** S.P.H. *** + + Space dimension for SPH 2 + + Initial Smoothing length : PART # 101 0.2751672E+00 + SPH PART # 101 + hmin : 0.5503E-01 + hmax : 0.5503E+00 + +************ + + + + + + + + + t i e d n o d a l p a i r s f o r l i n k i n g + + + ************************************************************ + + + m a s s p r o p e r t i e s o f SPH p a r t # 101 + total mass of part = 0.27318471E-02 + x-coordinate of mass center = 0.92316663E+00 + y-coordinate of mass center =-0.10666250E+02 + z-coordinate of mass center = 0.00000000E+00 + + inertia tensor of material + row1= 0.1983E-03 0.0000E+00 0.0000E+00 + row2= 0.0000E+00 0.2448E-03 0.0000E+00 + row3= 0.0000E+00 0.0000E+00 0.4431E-03 + + ************************************************************ + + + m a s s p r o p e r t i e s o f p a r t # 1 + total mass of part = 0.53677342E-23 + x-coordinate of mass center = 0.00000000E+00 + y-coordinate of mass center =-0.57253590E-06 + z-coordinate of mass center = 0.00000000E+00 + + inertia tensor of material + row1= 0.6116E-21 0.0000E+00 0.0000E+00 + row2= 0.0000E+00 0.3463E-26 0.0000E+00 + row3= 0.0000E+00 0.0000E+00 0.6116E-21 + + principal inertias + i11 = 0.6116E-21 + i22 = 0.3463E-26 + i33 = 0.6116E-21 + + principal directions + row1= 0.1000E+01 0.0000E+00 0.0000E+00 + row2= 0.0000E+00 0.1000E+01 0.0000E+00 + row3= 0.0000E+00 0.0000E+00 0.1000E+01 + + ************************************************************ + + + m a s s p r o p e r t i e s o f b o d y + total mass of body = 0.27318473E-02 + x-coordinate of mass center = 0.92316651E+00 + y-coordinate of mass center =-0.10666249E+02 + z-coordinate of mass center = 0.00000000E+00 + + inertia tensor of body + row1= 0.1983E-03 0.1863E-08 0.0000E+00 + row2= 0.1863E-08 0.2448E-03 0.0000E+00 + row3= 0.0000E+00 0.0000E+00 0.4431E-03 + + principal inertias of body + i11 = 0.1983E-03 + i22 = 0.2448E-03 + i33 = 0.4431E-03 + + principal directions + row1= 0.1000E+01 0.4007E-04 0.0000E+00 + row2= -0.4007E-04 0.1000E+01 0.0000E+00 + row3= 0.0000E+00 0.0000E+00 0.1000E+01 + + ************************************************************ + + + ************************************************************ + + NOTE : For 2D axisymmetric problems the following + masses are reported per radian. + For 2D plain strain/stress problems the + masses are reported per unit thickness. + + summary of mass + lumped mass in deformable + part of structure mass= 0.00000000E+00 + part id = 101 mass= 0.27318476E-02 + part id = 1 mass= 0.53677342E-23 + + t o t a l m a s s = 0.27318476E-02 + x-coordinate of mass center = 0.92316651E+00 + y-coordinate of mass center =-0.10666249E+02 + z-coordinate of mass center = 0.00000000E+00 + + + + ************************************************************ + + + S t o r a g e a l l o c a t i o n + + Memory required to begin solution : 257160 + Additional dynamically allocated memory: 52836 + Total: 309996 + + 25 smallest timesteps + ------------------------------------------------ + element number part timestep + sph 1002285 101 6.0802E-05 + sph 1002041 101 6.0802E-05 + sph 1001925 101 6.0802E-05 + sph 1001924 101 6.0802E-05 + sph 1001923 101 6.0802E-05 + sph 1001922 101 6.0802E-05 + sph 1001921 101 6.0802E-05 + sph 1001805 101 6.0802E-05 + sph 1001804 101 6.0802E-05 + sph 1001803 101 6.0802E-05 + sph 1001802 101 6.0802E-05 + sph 1002042 101 6.0802E-05 + sph 1002043 101 6.0802E-05 + sph 1002044 101 6.0802E-05 + sph 1002284 101 6.0802E-05 + sph 1002283 101 6.0802E-05 + sph 1002282 101 6.0802E-05 + sph 1002281 101 6.0802E-05 + sph 1002165 101 6.0802E-05 + sph 1002164 101 6.0802E-05 + sph 1002163 101 6.0802E-05 + sph 1002162 101 6.0802E-05 + sph 1002161 101 6.0802E-05 + sph 1002045 101 6.0802E-05 + sph 1001801 101 6.0802E-05 + 1 t 0.0000E+00 dt 6.08E-05 flush i/o buffers 08/31/25 16:53:47 + 1 t 0.0000E+00 dt 6.08E-05 write d3plot file 08/31/25 16:53:47 + 66 t 3.9521E-03 dt 6.08E-05 write d3plot file 08/31/25 16:53:47 + 132 t 7.9651E-03 dt 6.08E-05 write d3plot file 08/31/25 16:53:47 + 198 t 1.1982E-02 dt 6.08E-05 write d3plot file 08/31/25 16:53:47 + 264 t 1.5992E-02 dt 6.08E-05 write d3plot file 08/31/25 16:53:47 + 329 t 1.9947E-02 dt 6.08E-05 write d3plot file 08/31/25 16:53:47 + 395 t 2.3959E-02 dt 6.08E-05 write d3plot file 08/31/25 16:53:47 + 461 t 2.7972E-02 dt 6.08E-05 write d3plot file 08/31/25 16:53:47 + 527 t 3.1984E-02 dt 6.08E-05 write d3plot file 08/31/25 16:53:47 + + *** termination time reached *** + 576 t 3.5024E-02 dt 6.08E-05 write d3dump01 file 08/31/25 16:53:47 + 576 t 3.5024E-02 dt 6.08E-05 write d3plot file 08/31/25 16:53:47 + + N o r m a l t e r m i n a t i o n 08/31/25 16:53:47 + + S t o r a g e a l l o c a t i o n + + Memory required to complete solution : 257160 + Additional dynamically allocated memory: 60696 + Total: 317856 + + T i m i n g i n f o r m a t i o n + CPU(seconds) %CPU Clock(seconds) %Clock + ---------------------------------------------------------------- + Keyword Processing ... 0.0000E+00 0.00 2.0000E-02 1.59 + KW Reading ......... 0.0000E+00 0.00 2.0000E-03 0.16 + KW Writing ......... 0.0000E+00 0.00 4.0000E-03 0.32 + Initialization ....... 1.0000E+00 100.00 1.1820E+00 94.26 + Init Proc Phase 1 .. 0.0000E+00 0.00 1.0000E-02 0.80 + Init Proc Phase 2 .. 0.0000E+00 0.00 2.0000E-03 0.16 + Element processing ... 0.0000E+00 0.00 1.2000E-02 0.96 + Binary databases ..... 0.0000E+00 0.00 3.0000E-03 0.24 + ASCII database ....... 0.0000E+00 0.00 2.3000E-02 1.83 + Other ................ 0.0000E+00 0.00 1.4000E-02 1.12 + ---------------------------------------------------------------- + T o t a l s 1.0000E+00 100.00 1.2540E+00 100.00 + + Problem time = 3.5024E-02 + Problem cycle = 576 + Total CPU time = 1 seconds ( 0 hours 0 minutes 1 seconds) + CPU time per zone cycle = 0 picoseconds + Clock time per zone cycle= 3472225 picoseconds + + Number of CPU's 2 + NLQ used/max 136/ 136 + Start time 08/31/2025 16:53:46 + End time 08/31/2025 16:53:47 + Elapsed time 1 seconds( 0 hours 0 min. 1 sec.) for 576 cycles + + N o r m a l t e r m i n a t i o n 08/31/25 16:53:47 diff --git a/test/test_data/sph_models/R7_1_2_Histvar=2/d3plot b/test/test_data/sph_models/R7_1_2_Histvar=2/d3plot new file mode 100644 index 0000000..a8713cf Binary files /dev/null and b/test/test_data/sph_models/R7_1_2_Histvar=2/d3plot differ diff --git a/test/test_data/sph_models/R7_1_2_Histvar=2/d3plot01 b/test/test_data/sph_models/R7_1_2_Histvar=2/d3plot01 new file mode 100644 index 0000000..d047d0f Binary files /dev/null and b/test/test_data/sph_models/R7_1_2_Histvar=2/d3plot01 differ diff --git a/test/test_data/sph_models/R7_1_2_Histvar=2/d3plot02 b/test/test_data/sph_models/R7_1_2_Histvar=2/d3plot02 new file mode 100644 index 0000000..3a6e7ca Binary files /dev/null and b/test/test_data/sph_models/R7_1_2_Histvar=2/d3plot02 differ diff --git a/test/test_data/sph_models/R7_1_2_Histvar=2/sph_test.k b/test/test_data/sph_models/R7_1_2_Histvar=2/sph_test.k new file mode 100644 index 0000000..8fa6f32 --- /dev/null +++ b/test/test_data/sph_models/R7_1_2_Histvar=2/sph_test.k @@ -0,0 +1,143 @@ +*KEYWORD +*TITLE +$# title +SPH Unit Test +*CONTROL_CONTACT +$# slsfac rwpnal islchk shlthk penopt thkchg orien enmass + 0.0 0.0 1 0 1 0 1 0 +$# usrstr usrfrc nsbcs interm xpene ssthk ecdt tiedprj + 0 0 0 0 0.0 0 0 0 +*CONTROL_CPU +$# cputim iglst + 0.0 +*CONTROL_DAMPING +$# nrcyck drtol drfctr drterm tssfdr irelal edttl idrflg + 0 0.0 0.0 0.0 0.0 0 0.0 0 +*CONTROL_ENERGY +$# hgen rwen slnten rylen irgen maten drlen disen + 2 2 2 1 2 1 1 1 +*CONTROL_OUTPUT +$# npopt neecho nrefup iaccop opifs ipnint ikedit iflush + 0 0 0 0 0.0 0 100 5000 +*CONTROL_SPH +$# ncbs boxid dt idim nmneigh form start maxv + 0 0 0.0 2 0 0 0.0 0.0 +*CONTROL_TERMINATION +$# endtim endcyc dtmin endeng endmas nosol + 0.035 0 0.0 0.0 0.0 0 +*CONTROL_TIMESTEP +$# dtinit tssfac isdo tslimt dt2ms lctm erode ms1st + 0.0 0.9 0 0.0 0.0 0 0 0 +*DATABASE_GLSTAT +$# dt binary lcur ioopt +4.00000E-4 2 0 1 +*DATABASE_MATSUM +$# dt binary lcur ioopt +4.00000E-4 2 0 1 +*DATABASE_RCFORC +$# dt binary lcur ioopt +4.00000E-4 2 0 1 +*DATABASE_RWFORC +$# dt binary lcur ioopt +4.00000E-4 2 0 1 +*DATABASE_SLEOUT +$# dt binary lcur ioopt +4.00000E-4 2 0 1 +*DATABASE_BINARY_D3PLOT +$# dt lcdt beam npltc psetid + 0.004 0 0 0 0 +*DATABASE_EXTENT_BINARY +$# neiph neips maxint strflg sigflg epsflg rltflg engflg + 2 0 0 0 1 1 1 1 +$# cmpflg ieverp beamip dcomp shge stssz n3thdt ialemat + 0 0 0 1 1 1 2 1 +*MAT_PLASTIC_KINEMATIC +$# mid ro e pr sigy etan beta + 1 0.00271 68900.0 0.33 117.0 6.8 1.0 +$# src srp fs vp + 0.0 0.0 0.0 0.0 +*MAT_PLASTIC_KINEMATIC +$# mid ro e pr sigy etan beta + 2 0.00271 68900.0 0.33 117.0 6.8 1.0 +$# src srp fs vp + 0.0 0.0 0.0 0.0 +*INITIAL_VELOCITY +$# nsid nsidex boxid irigid icid + 0 0 0 0 0 +$# vx vy vz vxr vyr vzr + -50.0 0.0 0.0 0.0 0.0 0.0 +*PART +$# title + +$# pid secid mid eosid hgid grav adpopt tmid + 101 101 1 0 0 0 0 0 +*SECTION_SPH +$# secid cslh hmin hmax sphini death start sphkern + 101 1.3 0.0 0.0 0.0 0.0 0.0 0 +*RIGIDWALL_PLANAR_ID +$# id title + 1 +$# nsid nsidex boxid offset birth death rwksf + 0 0 0 0.0 0.01.00000E20 1.0 +$# xt yt zt xh yh zh fric wvel + 0.0 0.0 0.0 1.0 0.0 0.0 0.0 0.0 +*SET_NODE_LIST_GENERATE +$# sid da1 da2 da3 da4 solver its - + 101 0.0 0.0 0.0 0.0MECH 1 +$# b1beg b1end b2beg b2end b3beg b3end b4beg b4end + 1000001 1004800 0 0 0 0 0 0 +*NODE +$# nid x y z tc rc + 1001801 0.4998333 -11.04725 0.0 0 0 + 1001802 0.7115 -11.04725 0.0 0 0 + 1001803 0.9231666 -11.04725 0.0 0 0 + 1001804 1.134833 -11.04725 0.0 0 0 + 1001805 1.3465 -11.04725 0.0 0 0 + 1001921 0.4998333 -10.85675 0.0 0 0 + 1001922 0.7115 -10.85675 0.0 0 0 + 1001923 0.9231666 -10.85675 0.0 0 0 + 1001924 1.134833 -10.85675 0.0 0 0 + 1001925 1.3465 -10.85675 0.0 0 0 + 1002041 0.4998333 -10.66625 0.0 0 0 + 1002042 0.7115 -10.66625 0.0 0 0 + 1002043 0.9231666 -10.66625 0.0 0 0 + 1002044 1.134833 -10.66625 0.0 0 0 + 1002045 1.3465 -10.66625 0.0 0 0 + 1002161 0.4998333 -10.47575 0.0 0 0 + 1002162 0.7115 -10.47575 0.0 0 0 + 1002163 0.9231666 -10.47575 0.0 0 0 + 1002164 1.134833 -10.47575 0.0 0 0 + 1002165 1.3465 -10.47575 0.0 0 0 + 1002281 0.4998333 -10.28525 0.0 0 0 + 1002282 0.7115 -10.28525 0.0 0 0 + 1002283 0.9231666 -10.28525 0.0 0 0 + 1002284 1.134833 -10.28525 0.0 0 0 + 1002285 1.3465 -10.28525 0.0 0 0 +*ELEMENT_SPH +$# nid pid mass nend + 1001801 101 1.092736e-04 0 + 1001802 101 1.092736e-04 0 + 1001803 101 1.092736e-04 0 + 1001804 101 1.092736e-04 0 + 1001805 101 1.092735e-04 0 + 1001921 101 1.092741e-04 0 + 1001922 101 1.092741e-04 0 + 1001923 101 1.092741e-04 0 + 1001924 101 1.092741e-04 0 + 1001925 101 1.092741e-04 0 + 1002041 101 1.092741e-04 0 + 1002042 101 1.092741e-04 0 + 1002043 101 1.092741e-04 0 + 1002044 101 1.092741e-04 0 + 1002045 101 1.092741e-04 0 + 1002161 101 1.092741e-04 0 + 1002162 101 1.092741e-04 0 + 1002163 101 1.092741e-04 0 + 1002164 101 1.092741e-04 0 + 1002165 101 1.092741e-04 0 + 1002281 101 1.092736e-04 0 + 1002282 101 1.092736e-04 0 + 1002283 101 1.092736e-04 0 + 1002284 101 1.092736e-04 0 + 1002285 101 1.092735e-04 0 +*END diff --git a/test/test_data/sph_models/R9_3_1/binout b/test/test_data/sph_models/R9_3_1/binout new file mode 100644 index 0000000..3fdd026 Binary files /dev/null and b/test/test_data/sph_models/R9_3_1/binout differ diff --git a/test/test_data/sph_models/R9_3_1/d3hsp b/test/test_data/sph_models/R9_3_1/d3hsp new file mode 100644 index 0000000..f930ada --- /dev/null +++ b/test/test_data/sph_models/R9_3_1/d3hsp @@ -0,0 +1,3172 @@ + Date: 08/31/2025 Time: 16:54:00 + + ___________________________________________________ + | | + | Livermore Software Technology Corporation | + | | + | 7374 Las Positas Road | + | Livermore, CA 94551 | + | Tel: (925) 449-2500 Fax: (925) 449-2507 | + | www.lstc.com | + |_________________________________________________| + | | + | LS-DYNA, A Program for Nonlinear Dynamic | + | Analysis of Structures in Three Dimensions | + | Version : smp s R9.3.1 Date: 09/24/2019 | + | Revision: 140922 Time: 08:43:37 | + | | + | Features enabled in this version: | + | Shared Memory Parallel | + | FFTW (multi-dimensional FFTW Library) | + | Interactive Graphics | + | ANSYS Database format | + | ANSYS License (ANSYS150) | + | MADYMO indirect coupling (7.2 or higher) | + | Big ID option | + | | + | Licensed to: University of Waterloo -- 1081066 | + | Issued by : Pascale.SaneGuttin_08122025 | + | | + | Platform : WINDOWS X64 (SSE2) | + | OS Level : Windows 7/8/10 & Srv 2008/2012 R2 | + | Compiler : Intel Fortran XE 2016 MSVC++ 2010 | + | Hostname : Trauma118 | + | Precision : Single precision (I4R4) | + | SVN Version: 140923 | + | | + | Unauthorized use infringes LSTC copyrights | + |_________________________________________________| + + + Input file: C:\Users\DCHartlen\Documents\Scratchpad\lasso-python\test\test_data\sph_models\R + + The native file format : 32-bit small endian + Memory size from command line: 20000000 + + ******** notice ******** notice ******** notice ******** + * * + * This is the LS-DYNA Finite Element code. * + * * + * Neither LSTC nor the authors assume any responsibility for * + * the validity, accuracy, or applicability of any results * + * obtained from this system. The user must verify his own * + * results. * + * * + * LSTC endeavors to make the LS-DYNA code as complete, * + * accurate and easy to use as possible. * + * Suggestions and comments are welcomed. Please report any * + * errors encountered in either the documentation or results * + * immediately to LSTC through your site focus. * + * * + * Copyright (C) 1990-2018 * + * by Livermore Software Technology Corp. (LSTC) * + * All rights reserved * + * * + ******** notice ******** notice ******** notice ******** + + Beginning of keyword reader 08/31/25 16:54:00 + + + ** ****** ********** ******* + ** ******* ********** ******** + ** ** ** *** + ** ******* ** ** + ** ** ** *** + ********* ******** ** ******** + ********* ****** ** ****** + + +** ****** ******* ** ** * ** ***** +** ******* ******** ** ** ** ** ******* +** ** ** *** ** ** *** ** *** *** +** ** ** *** ** ** *** ** *** *** +** ** ** ** ** **** ** ** ** ********* +** ** ** *** ** ** *** ** ** +** ** ** *** ** ** *** ** ** +********* ******* ******* ** ** ** ** ** +********* ******* ****** ** ** * ** ** + + L I S T O F K E Y W O R D C O U N T S + +total # of *AIRBAG_option.......................... 0 +total # of *AIRBAG_INTERACTION..................... 0 +total # of *AIRBAG_PARTICLE........................ 0 +total # of *AIRBAG_REFERENCE_GEOMETRY.............. 0 +total # of *AIRBAG_SHELL_REFERENCE_GEOMETRY........ 0 +total # of *ALE_AMBIENT_HYDROSTATIC................ 0 +total # of *ALE_COUPLING_NODAL..................... 0 +total # of *ALE_ELEMENT_POROSITY................... 0 +total # of *ALE_FAIL_SWITCH_MMG.................... 0 +total # of *ALE_FRAGMENTATION...................... 0 +total # of *ALE_FSI_SWITCH_MMG..................... 0 +total # of *ALE_REFERENCE_SYSTEM_GROUP............. 0 +total # of *ALE_SWITCH_MMG......................... 0 +total # of *BOUNDARY_ACOUSTIC_COUPLING............. 0 +total # of *BOUNDARY_ACOUSTIC_COUPLING_MISMATCH.... 0 +total # of *BOUNDARY_ACOUSTIC_MAPPING.............. 0 +total # of *BOUNDARY_AERODYNAMIC_HEATING_SEGMENT... 0 +total # of *BOUNDARY_ALE_MIXING_LENGTH............. 0 +total # of *BOUNDARY_AMBIENT....................... 0 +total # of *BOUNDARY_CONVECTION_SEGMENT............ 0 +total # of *BOUNDARY_CONVECTION_SET................ 0 +total # of *BOUNDARY_CYCLIC........................ 0 +total # of *BOUNDARY_DE_NON_REFLECTING............. 0 +total # of *BOUNDARY_ELEMENT_METHOD_FLOW........... 0 +total # of *BOUNDARY_ELEMENT_METHOD_CONTROL........ 0 +total # 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of *BOUNDARY_RADIATION_SEGMENT.(Type 2).... 0 +total # of *BOUNDARY_RADIATION_SET.(Type 2)........ 0 +total # of *BOUNDARY_SLIDING_PLANE................. 0 +total # of *BOUNDARY_SPC_NODE...................... 0 +total # of *BOUNDARY_SPC_SET....................... 0 +total # of *BOUNDARY_SPH_FLOW...................... 0 +total # of *BOUNDARY_SPH_SYMMETRY_PLANE............ 0 +total # of *BOUNDARY_SYMMETRY_FAILURE.............. 0 +total # of *BOUNDARY_TEMPERATURE_NODE.............. 0 +total # of *BOUNDARY_TEMPERATURE_SET............... 0 +total # of *BOUNDARY_THERMAL_BULKFLOW_SET.......... 0 +total # of *BOUNDARY_THERMAL_BULKFLOW_ELEMENT...... 0 +total # of *BOUNDARY_THERMAL_BULKNODE.............. 0 +total # of *BOUNDARY_THERMAL_WELD.................. 0 +total # of *BOUNDARY_USA........................... 0 +total # of *COMPONENT_GEBOD........................ 0 +total # of *COMPONENT_GEBOD_JOINT.................. 0 +total # of *COMPONENT_HYBRIDIII.................... 0 +total # of *COMPONENT_HYBRIDIII_JOINT.............. 0 +total # 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of *CONSTRAINED_SPLINE..................... 0 +total # of *CONSTRAINED_SPOTWELD+CONSTRAINED_RIVET. 0 +total # of *CONSTRAINED_SPR2/INTERPOLATION_SPOTWELD 0 +total # of *CONSTRAINED_TIE-BREAK.................. 0 +total # of *CONSTRAINED_TIE-NODE-FAILURE........... 0 +total # of *CONTACT_option......................... 0 +total # of *CONTACT_GEOMETRIC_option............... 0 +total # of *CONTACT_GUIDED_CABLE................... 0 +total # of *CONTACT_1D............................. 0 +total # of *CONTACT_2D............................. 0 +total # of *CONTACT_2D_AUTOMATIC................... 0 +total # of *CONTROL_ACOUSTIC....................... 0 +total # of *CONTROL_ADAPTIVITY..................... 0 +total # of *CONTROL_BULK_VISCOSITY................. 0 +total # of *CONTROL_CHECK.......................... 0 +total # of *CONTROL_CONTACT........................ 1 +total # of *CONTROL_COUPLING....................... 0 +total # of *CONTROL_CPM............................ 0 +total # of *CONTROL_CPU............................ 1 +total # of *CONTROL_DYNAMIC_RELAXATION (DAMPING)... 1 +total # of *CONTROL_EFG............................ 0 +total # of *CONTROL_ENERGY......................... 1 +total # of *CONTROL_EXPLOSIVE_SHADOW............... 0 +total # of *CONTROL_FREQUENCY_RESPONSE_FUNCTION.... 0 +total # of *CONTROL_HOURGLASS...................... 0 +total # of *MPP_option............................. 0 +total # of *CONTROL_MAT............................ 0 +total # of *CONTROL_NONLOCAL....................... 0 +total # of *CONTROL_OUTPUT......................... 1 +total # of *CONTROL_PARALLEL....................... 0 +total # of *CONTROL_REFINE......................... 0 +total # of *CONTROL_SHELL.......................... 0 +total # of *CONTROL_SOLUTION....................... 0 +total # of *CONTROL_SPH............................ 1 +total # of *CONTROL_SUBCYCLE....................... 0 +total # of *CONTROL_TERMINATION.................... 1 +total # of *CONTROL_THERMAL_SOLVER................. 0 +total # of *CONTROL_THERMAL_TIMESTEP............... 0 +total # 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of *DEFINE_BEAM_SOLID_COUPLING............. 0 +total # of *DEFINE_BOX............................. 0 +total # of *DEFINE_CONSTRUCTION_STAGES ............ 0 +total # of *DEFINE_CONTACT_EXCLUSION............... 0 +total # of *DEFINE_COORDINATE_option............... 0 +total # of *DEFINE_CPM_BAG_INTERACTION............. 0 +total # of *DEFINE_CPM_CHAMBER..................... 0 +total # of *DEFINE_CPM_GAS_PROPERTIES.............. 0 +total # of *DEFINE_CPM_VENT........................ 0 +total # of *DEFINE_CURVE........................... 0 +total # of *DEFINE_CURVE_DUPLICATE................. 0 +total # of *DEFINE_CURVE_ENTITY.................... 0 +total # of *DEFINE_CURVE_FUNCTION.................. 0 +total # of *DEFINE_DE_ACTIVE_REGION................ 0 +total # of *DEFINE_DE_INJECTION.................... 0 +total # of *DEFINE_DE_TO_SURFACE_COUPLING.......... 0 +total # of *DEFINE_DE_TO_SURFACE_EROSION........... 0 +total # of *DEFINE_DE_TO_SURFACE_TIED.............. 0 +total # of *DEFINE_DE_TO_BEAM_COUPLING............. 0 +total # of *DEFINE_DE_BOND......................... 0 +total # of *DEFINE_DE_HBOND........................ 0 +total # of *DEFINE_DE_BY_PART...................... 0 +total # of *DEFINE_DE_MASSFLOW_PLANE............... 0 +total # of *DEFINE_FRICTION........................ 0 +total # of *DEFINE_FUNCTION........................ 0 +total # of *DEFINE_GROUND_MOTION................... 0 +total # of *DEFINE_PRESSURE_TUBE................... 0 +total # of *ALE_STRUCTURED_MESH.................... 0 +total # of *SMMALE_MESH_VOLUME_FILLING............. 0 +total # of *DEFINE_MULTI_SHEET_CONNECTORS.......... 0 +total # of *DEFINE_PLANE........................... 0 +total # of *DEFINE_PBLAST_HEGEO.................... 0 +total # of *DEFINE_PBLAST_AIRGEO................... 0 +total # of *DEFINE_SPH_ACTIVE_REGION............... 0 +total # of *DEFINE_SPH_INJECTION................... 0 +total # of *DEFINE_VECTOR.......................... 0 +total # of *DEFINE_VECTOR_NODE..................... 0 +total # of *DEFINE_SD_ORIENTATION.................. 0 +total # of *DEFINE_ELEMENT_DEATH_SOLID............. 0 +total # of *DEFINE_ELEMENT_DEATH_BEAM.............. 0 +total # of *DEFINE_ELEMENT_DEATH_SHELL............. 0 +total # of *DEFINE_ELEMENT_DEATH_TSHELL............ 0 +total # of *DEFINE_PG_BAG_INTERACTION.............. 0 +total # of *DEFINE_PG_CHAMBER...................... 0 +total # of *DEFINE_PG_GAS_PROPERTIES............... 0 +total # of *DEFINE_PG_VENT......................... 0 +total # of *DEFINE_SHELL_ELEMENT_DEATH_THICK....... 0 +total # of *DEFINE_SPH_TO_SPH_COUPLING............. 0 +total # of *DEFINE_SPH_DE_COUPLING................. 0 +total # of *DEFINE_SPOTWELD_RUPTURE_STRESS......... 0 +total # of *DEFINE_SPOTWELD_RUPTURE_PARAMETER...... 0 +total # of *DEFINE_STAGED_CONSTRUCTION_PART ....... 0 +total # of *DATABASE_BKSTAT........................ 0 +total # of *DEFORMABLE_TO_RIGID.................... 0 +total # of *DEFORMABLE_TO_RIGID_AUTOMATIC.......... 0 +total # of *DEFORMABLE_TO_RIGID_INERTIA............ 0 +total # of *ELEMENT_BEAM_option.................... 0 +total # of *ELEMENT_BEAM_PULLEY.................... 0 +total # of *ELEMENT_BEAM_SOURCE.................... 0 +total # of *ELEMENT_DISCRETE....................... 0 +total # of *ELEMENT_MASS........................... 0 +total # of *ELEMENT_MASS_PART...................... 0 +total # of *ELEMENT_SEATBELT....................... 0 +total # of *ELEMENT_SEATBELT_ACCELEROMETER......... 0 +total # of *ELEMENT_SEATBELT_PRETENSIONER.......... 0 +total # of *ELEMENT_SEATBELT_RETRACTOR............. 0 +total # of *ELEMENT_SEATBELT_SENSOR................ 0 +total # of *ELEMENT_SEATBELT_SLIPRING.............. 0 +total # of *ELEMENT_SHELL_option................... 0 +total # of *ELEMENT_SHELL_NURBS_PATCH.............. 0 +total # of *ELEMENT_SOLID.......................... 0 +total # of *ELEMENT_SOLID_NURBS_PATCH.............. 0 +total # of *ELEMENT_SPH............................ 25 +total # of *ELEMENT_TSHELL_option.................. 0 +total # of *ELEMENT_INERTIA........................ 0 +total # of *MODULE_LOAD............................ 0 +total # of *MODULE_USE............................. 0 +total # of *SENSOR_SWITCH_SHELL_TO_VENT............ 0 +total # of *SENSOR_CPM_AIRBAG...................... 0 +total # of *PG_SWITCH_SHELL_TO_VENT................ 0 +total # of *EOS_option............................. 0 +total # of *FATIGUE................................ 0 +total # of *FREQUENCY_DOMAIN_ACCELERATION_UNIT..... 0 +total # of *FREQUENCY_DOMAIN_ACOUSTIC_BEM.......... 0 +total # of *FREQUENCY_DOMAIN_ACOUSTIC_FEM.......... 0 +total # of *FREQUENCY_DOMAIN_ACOUSTIC_FRINGE_PLOT.. 0 +total # of *FREQUENCY_DOMAIN_ACOUSTIC_INCIDENT_WAVE 0 +total # of *FREQUENCY_DOMAIN_ACOUSTIC_SOUND_SPEED.. 0 +total # of *FREQUENCY_DOMAIN_FRF................... 0 +total # of *FREQUENCY_DOMAIN_MODE.................. 0 +total # of *FREQUENCY_DOMAIN_PATH.................. 0 +total # of *FREQUENCY_DOMAIN_RANDOM_VIBRATION...... 0 +total # of *FREQUENCY_DOMAIN_RESPONSE_SPECTRUM..... 0 +total # of *FREQUENCY_DOMAIN_SEA................... 0 +total # of *FREQUENCY_DOMAIN_SEA_CONNECTION........ 0 +total # of *FREQUENCY_DOMAIN_SEA_INPUTPOWER........ 0 +total # of *FREQUENCY_DOMAIN_SEA_SUBSYSTEM......... 0 +total # of *FREQUENCY_DOMAIN_SSD................... 0 +total # of *FV_MESHES.............................. 0 +total # of *FV_FSI................................. 0 +total # of *HOURGLASS.............................. 0 +total # of *INITIAL_AIRBAG_PARTICLE_POSITION....... 0 +total # of *INITIAL_AXIAL_FORCE_BEAM............... 0 +total # of *INITIAL_DETONATION..................... 0 +total # of *INITIAL_FIELD_SOLID.................... 0 +total # of *INITIAL_IMPULSE_MINE................... 0 +total # of *INITIAL_MOMENTUM....................... 0 +total # of *INITIAL_PWP_DEPTH ..................... 0 +total # of *INITIAL_STRAIN_SHELL................... 0 +total # of *INITIAL_STRAIN_SHELL_SET............... 0 +total # of *INITIAL_STRAIN_SOLID................... 0 +total # of *INITIAL_STRAIN_TSHELL.................. 0 +total # of *INITIAL_STRESS_BEAM.................... 0 +total # of *INITIAL_STRESS_DEPTH .................. 0 +total # of *INITIAL_STRESS_SECTION................. 0 +total # of *INITIAL_STRESS_SHELL................... 0 +total # of *INITIAL_STRESS_SHELL_SET............... 0 +total # of *INITIAL_STRESS_SOLID................... 0 +total # of *INITIAL_STRESS_SPH..................... 0 +total # of *INITIAL_STRESS_TSHELL.................. 0 +total # of *INITIAL_TEMPERATURE_SET................ 0 +total # of *INITIAL_TEMPERATURE_NODE............... 0 +total # of *INITIAL_VELOCITY....................... 1 +total # of *INITIAL_VELOCITY_NODE.................. 0 +total # of *INITIAL_VELOCITY_RIGID_BODY............ 0 +total # of *INITIAL_VOID_PART...................... 0 +total # of *INITIAL_VOID_SET....................... 0 +total # of *INITIAL_VOLUME_FRACTION_GEOMETRY....... 0 +total # of *INITIAL_HYDROSTATIC_ALE................ 0 +total # of *INITIAL_EOS_ALE........................ 0 +total # of *INITIAL_VAPOR_PART..................... 0 +total # of *INITIAL_ALE_MAPPING.................... 0 +total # of *INITIAL_LAG_MAPPING.................... 0 +total # of *INTEGRATION_BEAM....................... 0 +total # of *INTEGRATION_SHELL...................... 0 +total # of *INTERFACE_COMPONENT_option............. 0 +total # of *INTERFACE_DE_HBOND..................... 0 +total # of *INTERFACE_LINKING_DISCRETE_NODE........ 0 +total # of *INTERFACE_LINKING_DISCRETE_NODE_SET.... 0 +total # of *INTERFACE_LINKING_EDGE................. 0 +total # of *INTERFACE_LINKING_SEGMENT.............. 0 +total # of *INTERFACE_SPRINGBACK................... 0 +total # of *INTERFACE_SSI_AUXILIARY_FREE_FIELD..... 0 +total # of *INTERFACE_SSI_STATIC................... 0 +total # of *INTERFACE_SSI.......................... 0 +total # of *LOAD_ALE_CONVECTION ................... 0 +total # of *LOAD_AIR_PRESSURE...................... 0 +total # of *LOAD_BEAM.............................. 0 +total # of *LOAD_BEAM_SET.......................... 0 +total # of *LOAD_BODY_GENERALIZED.................. 0 +total # of *LOAD_BODY_POROUS....................... 0 +total # of *LOAD_BODY_RX........................... 0 +total # of *LOAD_BODY_RY........................... 0 +total # of *LOAD_BODY_RZ........................... 0 +total # of *LOAD_BODY_X............................ 0 +total # of *LOAD_BODY_Y............................ 0 +total # of *LOAD_BODY_Z............................ 0 +total # of *LOAD_BRODE............................. 0 +total # of *LOAD_BLAST............................. 0 +total # of *LOAD_BLAST_ENHANCED.................... 0 +total # of *LOAD_BLAST_SEGMENT..................... 0 +total # of *LOAD_BLAST_SEGMENT_SET................. 0 +total # of *LOAD_DENSITY_DEPTH .................... 0 +total # of *LOAD_GRAVITY_PART ..................... 0 +total # of *LOAD_HEAT_CONTROLLER .................. 0 +total # of *LOAD_HEAT_GENERATION_SET............... 0 +total # of *LOAD_HEAT_GENERATION_SOLID............. 0 +total # of *LOAD_HEAT_GENERATION_SET_SHELL......... 0 +total # of *LOAD_HEAT_GENERATION_SHELL............. 0 +total # of *LOAD_NODE.............................. 0 +total # of *LOAD_NODE_SET.......................... 0 +total # of *LOAD_NSG............................... 0 +total # of *LOAD_REMOVE_PART ...................... 0 +total # of *LOAD_SEGMENT........................... 0 +total # of *LOAD_SEGMENT_FSILNK.................... 0 +total # of *LOAD_SEGMENT_NONUNIFORM................ 0 +total # of *LOAD_SEGMENT_SET....................... 0 +total # of *LOAD_SEGMENT_SET_NONUNIFORM............ 0 +total # of *LOAD_SEISMIC_SSI_NODE.................. 0 +total # of *LOAD_SEISMIC_SSI_SET................... 0 +total # of *LOAD_SEISMIC_SSI_POINT................. 0 +total # of *LOAD_SEISMIC_SSI_DECONV................ 0 +total # of *LOAD_SHELL............................. 0 +total # of *LOAD_SHELL_SET......................... 0 +total # of *LOAD_STIFFEN_PART ..................... 0 +total # of *LOAD_SUPERPLASTIC_FORMING.............. 0 +total # of *LOAD_SURFACE_STRESS.................... 0 +total # of *LOAD_THERMAL_option_ELEMENT............ 0 +total # of *LOAD_THERMAL_option_NODE............... 0 +total # of *LOAD_THERMAL_option.................... 0 +total # of *LOAD_THERMAL_LOAD_CURVE................ 0 +total # of *LOAD_THERMAL_TOPAZ .................... 0 +total # of *LOAD_THERMAL_VARIABLE_SHELL_option..... 0 +total # of *LOAD_THERMAL_VARIABLE_BEAM _option..... 0 +total # of *LOAD_VIBRO_ACOUSTIC.................... 0 +total # of *LOAD_VOLUME_LOSS ...................... 0 +total # of *LSO_DOMAIN............................. 0 +total # of *LSO_POINT_SET.......................... 0 +total # of *LSO_REGION............................. 0 +total # of *LSO_TIME_SEQUENCE...................... 0 +total # of *LSO_VARIABLE_GROUP..................... 0 +total # of *MAT_option............................. 2 +total # of *MAT_THERMAL_option..................... 0 +total # of *MAT_NONLOCAL........................... 0 +total # of *NODE................................... 25 +total # of *NODE_MERGE............................. 0 +total # of *NODE_MERGE_TOLERANCE................... 0 +total # of *PART_option card....................... 1 +total # of *PART_ANNEAL_option..................... 0 +total # of *PARTICLE_BLAST......................... 0 +total # of *PARTICLE_GENERAL....................... 0 +total # of *RIGIDWALL_option....................... 1 +total # of *SECTION_option......................... 1 +total # of *SET_2D_SEGMENT......................... 0 +total # of *SET_BEAM............................... 0 +total # of *SET_BOX ............................... 0 +total # of *SET_DISCRETE........................... 0 +total # of *SET_MODE............................... 0 +total # of *SET_NODE_option........................ 1 +total # of *SET_PART............................... 0 +total # of *SET_POINT.............................. 0 +total # of *SET_SEGMENT............................ 0 +total # of *SET_SHELL_option....................... 0 +total # of *SET_SOLID.............................. 0 +total # of *SET_TSHELL............................. 0 +total # of *TERMINATION_BODY....................... 0 +total # of *TERMINATION_DELETED_SHELLS............. 0 +total # of *TERMINATION_DELETED_SOLIDS............. 0 +total # of *TERMINATION_NODE....................... 0 +total # of *TERMINATION_CONTACT.................... 0 +total # of *TITLE.................................. 1 +total # of *USER_INTERFACE_CONTROL................. 0 +total # of *USER_INTERFACE_FRICTION................ 0 +total # of *USER_INTERFACE_FORCES.................. 0 +total # of *USER_INTERFACE_CONDUCTIVITY............ 0 +total # of *USER_LOAD.............................. 0 +total # of *USER_MATERIAL_VENDOR................... 0 +total # of *USER_MATERIAL_LICENSE.................. 0 +total # of *USER_NONLOCAL_SEARCH................... 0 +total # of *CHANGE_BOUNDARY_CONDITIONS............. 0 +total # of *CHANGE_CONTACT_SMALL_PENETRATION....... 0 +total # of *CHANGE_RIGID_BODY_CONSTRAINTS.......... 0 +total # of *CHANGE_RIGID_BODY_INERTIA.............. 0 +total # of *CHANGE_THERMAL_PARAMETERS.............. 0 +total # of *CHANGE_VELOCITY_ZERO................... 0 +total # of *CHANGE_VELOCITY_RIGID_BODY............. 0 +total # of *DELETE_ALECPL.......................... 0 +total # of *DELETE_CONTACT......................... 0 +total # of *DELETE_CONTACT_2DAUTO.................. 0 +total # of *DELETE_FSI............................. 0 +total # of *DELETE_ENTITY.......................... 0 +total # of *DELETE_ELEMENT_SOLID................... 0 +total # of *DELETE_ELEMENT_BEAM.................... 0 +total # of *DELETE_ELEMENT_SHELL................... 0 +total # of *DELETE_ELEMENT_TSHELL.................. 0 +total # of *DELETE_PART............................ 0 +total # of *RIGID_DEFORMABLE_CONTROL............... 0 +total # of *RIGID_DEFORMABLE_D2R................... 0 +total # of *RIGID_DEFORMABLE_R2D................... 0 +total # of *STRESS_INITIALIZATION.................. 0 + + Memory required to process keyword : 364548 + + LS-DYNA will perform a structural only analysis + + + + SPH Unit Test + code input version =1993 + formats =mlarg + + + + c o n t r o l i n f o r m a t i o n + + CONTROL CARD 1. Model Size-General + + number of materials or property sets........... 2 + + number of nodal+scalar points.................. 29 + + number of merged nodal points.................. 0 + + number of solid elements....................... 0 + + number of beam elements........................ 0 + + number of shell elements....................... 1 + + number of thick shell elements................. 0 + + number of user defined material subroutines.... 0 + + number of material groups tied to solids....... 0 + + number of tracer particles..................... 0 + + number of super elements....................... 0 + + number of solid tetrahedrons with 10 nodes..... 0 + + number of quadratic shell elements............. 0 + + number of shells with extra degrees of freedom. 0 + + number of solids with extra degrees of freedom. 0 + + number of user defined sections................ 0 + + activate sensor capability (inactive=0)........ 0 + + number of user defined solid element types..... 0 + + number of solid interpolation elements......... 0 + + number of user defined shell element types..... 0 + + number of shell interpolation elements......... 0 + + number of constrained nodes for interpolation.. 0 + + consistent mass matrix for user-def elements... 0 + + number of shell nurbs patches.................. 0 + + number of solid nurbs patches.................. 0 + + + CONTROL CARD 2. Model Size-Boundary Conditions + + number of spc nodes............................ 0 + + number of spc coordinates...................... 0 + + number of velocity cards....................... 0 + + number of non-reflecting boundary segments..... 0 + + number of b. c. cards.......................... 0 + + number of b. c. cards with failure............. 0 + + number of box definition for b. c. card........ 0 + + number of nodes/interface for cyclic symmetry.. 0 + + number of rigid bodies with attachment nodes... 0 + + + CONTROL CARD 3. Model Size-Loading + + number of load curves.......................... 0 + + number of nodes for load curve functions....... 0 + + number of curves for entities.................. 0 + + number of concentrated load cards.............. 0 + + number of pressure load cards.................. 0 + + number of nonuniform pressure loads-4 nodes.... 0 + + number of nonuniform pressure loads-6 nodes.... 0 + + number of nonuniform pressure loads-8 nodes.... 0 + + number of generalized body force sets.......... 0 + + number of beam pressure card definitions....... 0 + + number of detonation points.................... 0 + + number of zones for momentum deposition........ 0 + + number of points in density vs. depth curve.... 0 + + number of outflow boundary segments............ 0 + + number of load curve feedback sets............. 0 + + number of pressure load sets with masks........ 0 + + number of spray systems ....................... 0 + + number of initial stress by cross-sections sets 0 + + number of pressure load sets................... 0 + + number of ground motion definitions............ 0 + + number of ground motions specified at nodes.... 0 + + number of ground motions specified at points... 0 + + number of ground motions specified in bin file. 0 + + number of segsets with specified ground motion. 0 + + number of soil-structure interfaces for output. 0 + + number of aero-acoustic load cards............. 0 + + number of delayed curve........................ 0 + + number of pid controller....................... 0 + + + CONTROL CARD 4. Model Size-Constraints and Contact + + number of rigid wall definitions............... 1 + + number of number of contact definitions........ 0 + + number of number of guided cable contacts...... 0 + + number of shell-solid interfaces............... 0 + + number of tie-breaking slide lines............. 0 + + number of blocks of tied nodes with fracture .. 0 + + number of tied nodal pairs for linking......... 0 + + number of constraint cards..................... 0 + + number of linear constraint equations.......... 0 + + number of 1d slidelines........................ 0 + + number of adaptive constraints................. 0 + + number of ALE smoothing constraints............ 0 + + number of 2d slidelines........................ 0 + + number of 2d automatic contacts................ 0 + + number of part IDs for interior contact........ 0 + + number of beam release sets.................... 0 + + max. number of nodes in any beam release set... 0 + + + CONTROL CARD 5. Model Size-Rigid Body Parameters + + number of rigid body constraint sets........... 0 + + number of rigid body merge cards............... 0 + + number of joint constraints.................... 0 + + number of joint failure definitions............ 0 + + number of joint user force definitions......... 0 + + number of extra node blocks.................... 0 + + number of rigid body inertia definitions....... 0 + + number of geometric contact entities........... 0 + + number of joint stiffness definitions.......... 0 + + number of rigid body stoppers.................. 0 + + joint formulation for rigid bodies............. 0 + eq.0: penalty + eq.1: lagrange multiplier + + generalized stiffness angle update ............ 0 + eq.0: incremental formulation + eq.1: total formulation + + number of flexible bodies...................... 0 + lt.0: stress recovery active + + number of relative damping definitions......... 0 + + flag for reading rigid surface contact input... 0 + eq.0: no rigid surface contact + eq.1: read rigid surface input + + number of Hybrid III dummies .................. 0 + + number of Hybrid III joint modifications ...... 0 + + number of interpolation constraints ........... 0 + + flag for metalforming fast rigid bodies........ 0 + eq.0: full rigid body treatment + eq.1: fast rigid body treatment + + number of prescribed rigid body orientations 0 + + + CONTROL CARD 6. Model Size-Discrete Elements & Seat Belts + + number of spring-damper material types......... 0 + + number of local coordinate systems............. 0 + + number of discrete springs and dampers......... 0 + + number of lumped masses........................ 0 + + number of parts with added mass................ 0 + + number of nodes with mass matrix............... 0 + + number of seat belt materials.................. 0 + + number of seat belt elements................... 0 + + number of 2d seat belt elements................ 0 + + number of slip rings........................... 0 + + number of retractors........................... 0 + + number of sensors.............................. 0 + + number of pretensioners........................ 0 + + number of accelerometers....................... 0 + + number of discrete rotary inertias............. 0 + + number of SPH particles........................ 25 + + number of groups of SPH particles.............. 1 + + + CONTROL CARD 7. Model Size-Output Control + + number of cross section definitions............ 0 + + number of nodal groups for resultant forces.... 0 + + number of interface segments for linking....... 0 + + max. number of segments defining rigid wall.... 0 + + number of power spectrum density databases..... 0 + + + CONTROL CARD 8. Computation Options-Termination + + termination time............................... 0.3500E-01 + + termination cycle.............................. 0 + + reduction factor for minimum time step (TSMIN). 0.0000E+00 + + percent change in energy ratio for termination. 0.0000E+00 + + percent change in total mass for termination... 0.0000E+00 + + number of nodes for displacement termination... 0 + + number of rigid bodies for disp. termination... 0 + + number of conditions for contact termination... 0 + + number of conditions for ldcurve termination... 0 + + ID of sensor_switch for sensor termination... 0 + + + CONTROL CARD 8a. Computation Options-Start + + start time..................................... 0.0000E+00 + + + CONTROL CARD 9. Computation Options-Time Step Size + + initial time step size......................... 0.0000E+00 + + time step scale factor......................... 0.9000E+00 + + time step size calculation for 4-node shells... 0 + eq.0: based on longest element side + eq.1: based on longest element diagonal + eq.2: based on bar wave speed max side + eq.3: based on optimal time step size + estimator + + shell element minimum time step assignment..... 0.0000E+00 + + time step size for mass scaled solution, dt2ms. 0.0000E+00 + lt.0: minimum time step size permitted + + load curve number for maximum timestep......... 0 + + erosion flag for solid and thick shells........ 0 + eq.0: no + eq.1: yes + + option part set ID for eroding solids.......... 0 + eq.0: all solids are checked if eros_flag=1 + gt.0: solids within part set are checked + + limit mass scaling to the first time step...... 0 + eq.0: no + eq.1: yes + + scale factor on initial dt to determine dt2ms.. 0.0000E+00 + + load curve ID for mass scaling ................ 0 + + flag for selective mass scaling................ 0 + eq.0: off + eq.1: on + eq.2: on for part subset + + consistent constraint logical switch........... F + + flag for part set for erosion ................. 0 + eq.0: no + eq.1: yes + + flag for accounting for rotations in sms....... 0.0000E+00 + eq.0.: off (default) + gt.0.: on + implicit_explicit_hybrid part set.............. 0 + + + + CONTROL CARD 10. Computation Options-Loading + + x-ground acceleration.......................... 0 + eq.0: no + eq.1: yes + + y-ground acceleration.......................... 0 + eq.0: no + eq.1: yes + + z-ground acceleration.......................... 0 + eq.0: no + eq.1: yes + + x-angular velocity............................. 0 + eq.0: no + eq.1: yes + + y-angular velocity............................. 0 + eq.0: no + eq.1: yes + + z-angular velocity............................. 0 + eq.0: no + eq.1: yes + + number of materials receiving body forces...... 0 + eq.0: all + eq.n: subset of n materials + + flag for user defined loading subroutine....... 0 + lt.0: magnitude=# of input constants + eq.0: no + eq.1: yes, but no additional input + + explosive initiation option.................... 0 + eq.0: lighting times based on distance + eq.1: lighting times include geometric + effects for wave shapers, etc. + + sub-sea structural analysis option............. 0 + eq.0: off + eq.1: on with 1 point integration + eq.4: on with 4 point integration + contact pressure calculation option............ 0 + eq.0: off (default) + eq.1: on + # of user defined loading set.................. 0 + + + CONTROL CARD 11. Computation Options-Input Control + + initialization of velocities................... 1 + eq.0: velocities are initialized to zero + eq.1: initial velocities are read in + eq.2: all velocities have same input value + eq.3: as 2 but exempted nodes are defined + eq.4: box option + eq.5: generation with arbitrary numbering + eq.6: rotational and translational via IDs + eq.7: option 6 but applied during calculation + + time to apply initial velocites (option 7)..... 0.0000E+00 + + arbitrary node and element numbering flag ..... 1 + + constitute, eqs-of-state, cross-section option. 0 + eq.0: off + eq.1: separate input is required for each + + specified nodal coordinate format.............. e20.0 + + flag for thermodynamic control volume input.... 0 + + overpressure option (eq.0 no, eq.1 yes)....... 0 + + number of part (de) activation sensors......... 0 + + number of rigid body initial velocity sets..... 0 + + jacobian tolerance for type 16 tetrahedron..... 0.0000E+00 + + flag to check for NaN in force/moment arrays... 0 + + load curve accuracy flag....................... 0 + + cycles between evaluation of curve functions... 1 + + + CONTROL CARD 12. Computation Options-Elements + + warped shell angle in deg. for error message... 0.2000E+02 + + iterative plane stress plasticity for shells... 1 + eq.1: vectorized with three iterates + eq.2: nonvectorized iterations as needed + eq.3: noniterative radial return + + Calculation option for F for solid elements.... 0 + eq.0: default, explicit=1, implicit=2 + eq.1: integrate incrementally + eq.2: compute directly + + flag for automatic sorting .................... 0 + eq. 1: on for triangular shells + eq.11: on for triangular shells and solids + eq.10: on for solids (tets and pentas) + + formulation for sorted degenerate tet/pent..... 0 + eq. 0: no sorting required(default) + eq. 1: type 10 tet & type 15 pent + eq. 2: type 10 tet, 1pt pent to type 15 pent, + fully intg pent to type 115 pent + eq. 3: same as 1 & switch elem in messag file + eq. 4: same as 2 & switch elem in messag file + + formulation for sorted trianglar shells ....... 0 + eq. 0: no sorting required(default) + eq. 1: C0 triangle, type 4 + eq. 2: DKT triangle type 17 + + hughes-liu normal computation options.......... -1 + eq.-2: unique nodal fibers + eq.-1: compute normals each cycle + eq.0 : default set to -1 + eq.1 : compute on restart + eq.n : compute on restart + each nth cycle + + thickness modification for membrane strains.... 0 + eq.0: no + eq.1: 4-node shell only + eq.2: 8-node thick shell types 1 & 2 + eq.3: update both 4 & 8 node thickness + eq.4: same as option 1 but the elastic + strains are neglected + + shell part set ID (pids) for thickness update. 0 + lt.0: exclude pids if update option is active + eq.0: include all if update option is active + gt.0: include pids if update option is active + + shell part set ID where type 4 update applies 0 + + shell formulation basis........................ 2 + eq. 1: hughes-liu + eq. 2: belytschko-tsay + eq. 3: bciz + eq. 4: c0-triangular element + eq. 5: membrane element + eq. 6: s/r hughes-liu + eq. 7: s/r co-rotational hughes-liu + eq. 8: belytschko-leviathan shell + eq. 9: fully integrated membrane + eq. 10: belytschko-wong-chiang + eq. 11: fast hughes-liu + eq. 12: 2d plane stress + eq. 13: 2d plane strain + eq. 14: 2d axisymmetric (area wgt) + eq. 15: 2d axisymmetric (volume wgt) + eq. 16: fully integrated element + eq. 17: dkt element + eq. 18: dkq-dkt linear element + eq. 20: assumed strain linear element + eq. 21: assumed strain linear element(5DOF) + eq. 22: linear shear panel element(3DOF) + eq. 23: 8-node quadratic quadrilateral shell + eq. 24: 6-node quadratic triangular shell + eq. 25: belytschko-tsay with + thickness stretch + eq. 26: fully integrated element with + thickness stretch + eq. 27: c0-triangular element with + thickness stretch + eq. 29: cohesive element + eq. 31: 2-d 1-pt. eulerian n-s + eq. 32: 2-d 4-pt. eulerian n-s + eq. 33: 2-d cvfem eulerian n-s + eq. 41: meshfree shell local projection + eq. 42: meshfree shell global projection + eq. 43: meshfree plane strain + eq. 44: meshfree axisymmetric solid + eq. 46: cohesive element + eq. 47: cohesive with shell offsets + eq. 98: interpolation shell element + eq. 99: elastic vibration element + eq. 201: isogeometric nurbs element + ge.1000: user defined (generalized) shell + + # of user specified beam integration rules..... 0 + + max number of integration points reqd (beams) . 0 + + # of user specified shell integration rules.... 0 + + max number of integration points reqd (shells). 0 + + warping stiffness for Belytschko-Tsay shells... 2 + eq.1: Belytschko-Wong-Chiang modification + eq.2: original Belytschko-Tsay + + projection method for warping stiffness........ 0 + eq.0: drill + eq.1: full + + reference configuration ....................... 0 + eq. 0: no + eq. 1: yes, active for all airbags + eq. 2: yes, reference geometry Dt + eq.10: yes, active for foam elements + eq.11: options 1 and 10 active + eq.12: options 2 and 10 active + + contact reference configuration ............... 0 + eq. 0: no + eq. n: n number of reference nodes + + invariant node numbering ...................... 0 + eq.-4 on for both shell and solid elements + except triangular shells + eq.-2 on for shell elements except + triangular shells + eq. 1 off (default) + eq. 2 on for all shell elements + eq. 3 on for solid elements with + anisotropic material + eq. 4 on for all shell elements and solid + elements with anisotropic material + + activation time for reference geometry ........ 0.0000E+00 + + scale factor for shell rotary mass ............ 0.1000E+01 + + integration for shell through thickness ....... 0 + eq.0: Gauss + eq.1: Lobatto + + use laminated shell theory for material ....... 0 + types 22, 54, 55, and 76: + eq.0: no + eq.1: yes for thin shell material types + 22, 54, 55, or 76 + eq.3: yes for all thin shell anisotropic + materials or mixed materials + eq.4: yes for all thick shell anisotropic + materials or mixed materials + eq.5: yes for thick and thin shells + + number of annealed parts ....................... 0 + + number of new part IDs for COMPOSITE option..... 0 + + flag for shell offset vectors ................. 0 + eq. 0: off + eq. 1: on + + flag for offset shell contact surface ......... 0 + eq. 0: off + eq. 1: on + eq. 2: on, but use contact thickness + + number of point constraints between shells .... 0 + + flag for input of beam orientation vectors .... 0 + + flag for input of beam offset vectors ......... 0 + + flag for input of beam warpage scalar nodes.... 0 + + flag for 12-node shell for thermal ............ 0 + + local shell coordinate system in type 6 shell.. 1 + eq. 0: uniform local coordinate system + eq. 1: variable local coordinate system + + Jacobian check on 1 point shells............... 0 + eq. 0: off + eq. 1: on -delete distorted element + eq. 2: on -terminate + eq. n: terminate when n elements are deleted + + Jacobian check on 4 point shells............... 0 + eq. 0: off + eq. 1: on -delete distorted element + eq. 2: on -terminate + eq. n: terminate when n elements are deleted + + part set ID for Jacobian checks................ 0 + + keep contact segment related to failed shell... 0 + eq. 0: off + eq. 1: on + delete free-free shells in Jacobian checks..... 0 + eq. 0: off + eq. 1: on + + part set ID for drill constraint force ........ 0 + scale factor for drill constraint force ....... 0.0000E+00 + + w mode deletion angle in degrees .............. 0.0000E+00 + + stretch ratio deletion (l/l0) ................. 0.0000E+00 + + flag for error exit in case of unwanted + interpolation of inital stresses .............. 0 + + number of shell part IDs for termination...... 0 + eq. 0: inactive + gt. 0: # part IDs where # failed are defined + + number of solid part IDs for termination...... 0 + eq. 0: inactive + gt. 0: # part IDs where # failed are defined + + integration rule for quadratic tetrahedrons.... 4 + eq. 4: 4 point integration formula + eq. 5: 5 point integration formula + + integration rule for quadratic shells.......... 2 + eq. 2: 2 point integration in plane + eq. 3: 3 point integration in plane + + stress output for solid element spotwelds...... 0 + eq. 1: global (default) + eq. 2: local + + # of solid elements with death times........... 0 + + # of beam elements with death times........... 0 + + # of shell elements with death times........... 0 + + # of thick shell elements with death times..... 0 + + # of box definitions for element deletion...... 0 + + # of parts to be annealed...................... 0 + + flag for input of elbow extra scalar nodes..... 0 + + flag for material stochastic variations........ 0 + + number of tailor welded blanks ................ 0 + + number of heat affected zone property sets..... 0 + + flag for loading segments with file option..... 0 + + flag for loading segments FSI link file........ 0 + + + number of solid elements with initial stress .. 0 + + number of sph elements with initial stress .. 0 + + number of beam elements with initial stress .. 0 + + number of shell elements with initial stress .. 0 + + number of shell elements with initial strain .. 0 + + maximum number of tensor data ................. 0 + + maximum number of history variables ........... 0 + + no. of thick shell elems with initial stress .. 0 + + number of solid elements with initial strain .. 0 + + number of solid elements with initial dof...... 0 + + number of nodes with initial geometry.......... 0 + + write nodes with initial geometry.............. 0 + = 0: do not write nodes + = 1: write nodes + + number of discrete element spheres............. 0 + + flag for initial transverse shear stresses .... 0 + = 0: keep transverse shear stresses (default) + = 1: set transverse shear stresses to zero + + number of of thick shells with inital strain... 0 + + cohesive element flag ICOH = [LK] = K+10*L .... 0 + K = 0: do not delete after neighbor failed + K = 1: delete after neighbor failed + L = 0: default time step estimate + L = 1: most conservative (smallest) + time step estimate + L = 2: intermediate time step estimate + + + CONTROL CARD 13. Computation Options-Materials + + hourglass formulation.......................... 0 + eq.0 LS-DYNA versions 940 and after + eq.1 LS-DYNA versions 936 and before + + hourglass models + eq.1: standard viscous form + eq.2: flanagan-belytschko viscous form + 1pt volume integration for solids + eq.3: flanagan-belytschko viscous form + exact volume integration for solids + eq.4: flanagan-belytschko stiffness form + 1pt volume integration for solids + eq.5: flanagan-belytschko stiffness form + exact volume integration for solids + eq.6: bindeman-belytschko stiffness form + for 2d and 3d solid elements only + eq.9: puso stiffness form for 3d solid + elements only + + hourglass model (default)...................... 0 + + hourglass coefficient (default)................ 0.0000E+00 + + bulk viscosity type (default).................. 0 + eq.-2: standard +types 2,4,10,16,17 shells+IE + eq.-1: standard +types 2,4,10,16,17 shells + eq.+1: standard + + quadratic bulk viscosity coefficient........... 0.0000E+00 + + linear bulk viscosity coefficient.............. 0.0000E+00 + + bulk viscosity type for beams.................. 0 + eq.+1: standard + eq.+2: standard + IE + + flag for rayleigh damping input................ 0 + eq.0: off (default) + eq.1: on + + flag for rigid/deformable material switching... 1 + eq.1: off (default) + eq.2: on + eq.3: on and automatic switching + + thermal effects option......................... 0 + eq.0: no thermal effects + eq.n: nodal temps scaled by load ftn -n- + eq.-1: coupled thermal mechanical analysis + eq.-2: temperature data input option 2 + eq.-3: thermal solution + eq.-4: Read binary temperature file + eq.-9998: user defined load set temp. input + eq.-9999: temperature data input option 1 + + thermal curve ID used for dynamic relaxation... 0 + + super plastic forming input option............. 0 + eq.0: skip input + eq.1: read superplastic input section + + objective stress update for large Dt........... 0 + eq.0: off (default) + eq.1: on globally + eq.2: on for part subset + + default contact parameters input option........ 0 + eq.0: no + eq.1: yes + + number of reinforcement cards for mat 84&85.... 0 + + output interval for aea_crack database......... 0.0000E+00 + + number of non local materials.................. 0 + + neighbours arrays oversized of (%)............. 0 + + number of parts defined for adaptive failure... 0 + + number of elements with specified temperature.. 0 + + number of parts with spotweld rupture stress... 0 + + number of parts with spotweld rupture parametr. 0 + + number of spotweld lists....................... 0 + + number of rows of opt=10 spot weld failure data 0 + + flag for MAT_ADD_EROSION failure switching .... 0 + eq.0: on (default) + eq.1: off globally + + + CONTROL CARD 14. Computation Options-Damping + + load curve specifying system damping........... 0 + eq.-1: system damping by material + eq. n: load curve n defines system damping + + optional constant for system damping........... 0.0000E+00 + + system damping scale factor for x-translation.. 0.1000E+01 + + system damping scale factor for y-translation.. 0.1000E+01 + + system damping scale factor for z-translation.. 0.1000E+01 + + system damping scale factor for x-rotation..... 0.1000E+01 + + system damping scale factor for y-rotation..... 0.1000E+01 + + system damping scale factor for z-rotation..... 0.1000E+01 + + stress initialization flag .................... 0 + eq.-1: dynamic relaxation (debug option) + eq.0: off + eq.1: dynamic relaxation + eq.2: deformed geometry + eq.3: dynamic relaxation with part set ID + eq.5: initialize implicitly + eq.-999:off-not activated by load curves + + convergence check interval (dynamic relaxation) 250 + + convergence tolerance for dynamic relaxation... 0.1000E-02 + + dynamic relaxation factor...................... 0.9950E+00 + + termination time for dynamic relaxation........ 0.0000E+00 + eq.0.0: convergence terminates relaxation + gt.0.0: termination at specified time + unless convergence is attained + + scale factor for dyn relax time step........... 0.9000E+00 + + automatic determination of dr factors.......... 0 + eq.0: off (default) + eq.1: on + + convergence tolerance for above option......... 0.0000E+00 + + active part set ID for dynamic relaxation ..... 0 + + + + CONTROL CARD 15. Computation Options-Contact + + scale factor for contact interface penalties... 0.1000E+00 + + scale factor for rigid wall penalties.......... 0.0000E+00 + + flag to activate MADYMO contact coupling....... 0 + eq.0: inactive + eq.1: active + + track initial penetrations in auto contacts.... 0 + eq.0: no, move node to contact surface + eq.1: yes, initial penetrations remain + + ignore initial separations in tied contacts.... 0 + eq.0: no, eliminate gaps most accurate + eq.1: yes, may lock rotations + + contact initial penetration check option....... 1 + eq.1: off (default) + eq.2: on + + thickness considered in type 3, 5 or 10 contact 0 + eq.0: off + eq.1: on, but rigid bodies excluded + eq.2: on, rigid bodies are included + + penalty stiffness option....................... 1 + eq.1: minimum master/slave value + eq.2: master segment stiffness (old way) + eq.3: slave node stiffness + eq.4: slave node area/mass weighted + eq.5: like 4 but k proportional to 1/thick + + thickness changes considered in contact........ 0 + eq.0: no for type 4, 13, and a13 contact + except for segment based contact (SOFT=2), + eq.1: yes + eq.2: no in any segment based conatct (SOFT=2) + + automatic reorientation option................. 1 + eq.1: on for automatic contact definitions + eq.2: on + eq.3: off + + memory allocation-user contact surface control 0 + gt.0: memory per interface passed to user + + memory allocation-user contact surface frict... 0 + gt.0: memory per interface passed to user + + number of time steps between contact searching. 0 + eq.0: LS-DYNA chooses value + + intermittent searching in type 3 contact....... 0 + eq.0: off (default) + eq.1: on + + release factor for extra searching option...... 0.4000E+01 + + treatment of nodes in eroding contact.......... 0 + eq.0: delete from calculation + eq.1: keep nodes of eroded solids + eq.2: keep nodes of eroded solids & shells + + calculation of frictional sliding energy....... 0 + eq.0: do not calculate + eq.1: calculate + + shell thickness in single surface contact...... 0 + eq.0: use characteristic shell dimension + eq.1: use actual shell thickness + + time step size override for eroding contact.... 0 + eq.0: contact time size may control dt + eq.1: contact is not considered for dt + + number of automatic positioning definitions.... 0 + + print slave node/segment in spotweld contact... 0 + eq.0: no + eq.1: yes, in D3HSP file + + option for unconstrained spotweld node/face.... 0 + eq.0: ignore + eq.1: terminate + eq.2: delete weld and continue + + delete spotweld if tied to failed shell........ 0 + eq.0: no + eq.1: yes + + number of friction table definitions........... 0 + + read in friction table for automatic contacts.. 0 + eq.0: no + ne.0: number of part pair defined for table + + read in spotweld failure table................. 0 + eq.0: no + ne.0: number of part pair defined for table + + contact thickness scaling option for welds..... 0.0000E+00 + eq.0.0: inactive + gt.0.0: scale factor on thickness + + beam spotweld radius scale factor for thinning. 0.0000E+00 + eq.0.0: inactive + gt.0.0: scale factor on radius + + read in smooth contact flags................... 0 + eq.0: no + eq.1: yes + Warning: in Shared Memory Program smooth option only + available for Forming type contact + + flag for eliminating faces on symmetry planes.. 0 + eq.0: use all faces + eq.1: delete faces from contact + + spotweld tension scaling load curve............ 0 + spotweld compression scaling load curve........ 0 + spotweld direction scaling table.(tension)..... 0 + spotweld direction scaling table (shear) ..... 0 + eq.0: table for tension scaling is used + spotweld print flag (on=1)..................... 0 + + number of contact volume definitions........... 0 + + flag to use one way node to surface erosion.... 0 + + flag for implicit rigidwall gap stiffness...... 1 + + eq.1: add initial gap stiffness + eq.2: do not add gap stiffness + + death time for gap stiffness................... 0.0000E+00 + + penalty scale factor for rigid walls........... 0.1000E+01 + + flag for covariant contact formulation......... 0 + + eq.0: covariant formulation not used + eq.1: covariant formulation used + + flag for offsetting thick thermal contact + surfaces in the thermal contacts............... 0 + + eq.0: no offset, if thickness is not included + contact will act on shell mid-surface + eq.1: offsets are applied so that contact + always act on the shell outer surfaces + + flag for shell segment edge shape.............. 0 + eq.0: shell edges assumed round (default) + eq.1: shell edges assumed square + + stiffness calculation for segment based contact 0 + eq.0: use material density (default) + eq.1: use nodal masses + + flag for consistent thermal contact algorithm.. 1 + lt.0: conduction evenly distributed (pre-R4) + eq.1: conduction weighted by shape functions, + reduced integration (default) + eq.2: conduction weighted by shape functions, + full integration + + flag for optional tied interface update ....... 0 + eq.0: integrate accelerations for v and u + eq.1: differentiate u to obtain v and a + + flag for overlapping force transducers......... 0 + eq.0: forces applied to first found (faster) + eq.1: forces applied to all transducers + + scale factor for contact interface mass scaling 0.0000E+00 + shell thickness scale factor for rigidwall .... 0.0000E+00 + flag of contact involving isogeometric ele .... 0 + eq.0: interp. node vs. interp. facet + eq.1: interp. node vs. isogeometric element + print out penetration info for mortar contact.. 0 + scale factor for contact pressure on thickness + shells......................................... 0.1000E+01 + + + CONTROL CARD 16. Computation Options-Parallel + + number of cpus for parallel computations....... 2 + + parallel right hand side assembly.............. 0 + eq.0: on (default) + eq.1: off + + flag for automatic subcycling.................. 0 + eq.0: off (default) + eq.1: on + + number of part IDs for mass scaled subcycling.. 0 + + flag for repeatability in parallel solution.... 2 + eq.1: on (ordered RHS summation-slower) + eq.2: off (default) + + use memory to parallelize repeatability option. 0 + eq.0: off + eq.1: on + maximum time step factor for subcycling........ 0 + + + CONTROL CARD 17. Computation Options-Coupling + + length conversion factor coupling.............. 0.1000E+01 + + time conversion factor coupling................ 0.1000E+01 + + force conversion factor coupling............... 0.1000E+01 + + material repositioning flag.................... 0 + eq.0: off + eq.1: input data defines repositioning + eq.2: no repositioning of defined nodes + + Flag to flip X-coordinates..................... 0 + + Flag to flip Y-coordinates..................... 0 + + Flag to flip Z-coordinates..................... 0 + + Idle time for LS-DYNA.......................... 0.0000E+00 + + Implicit coupling for springback............... 0 + eq.0: off (default) + eq.1: on + eq.2: seamless springback + + DYNAIN output format........................... 0 + eq. 0: ascii + eq. 1: binary + eq. 2: ascii and binary + eq.10: ascii (large) + eq.11: binary (large internal ASCII) + eq.12: ascii and binary (large) + + Mismatched acoustic coupling input flag........ 0 + eq.0: off + eq.1: on + + Two sided acoustic coupling input flag......... 0 + eq.0: off + eq.1: on + + Coupling with USA.............................. 0 + eq.0: off (default) + eq.1: on + + Number of steps for CAL3D/MADYMO3D subcycling.. 1 + + Number of MCOL coupled rigid bodies............ 0 + + Number of vehicles to be initialized........... 0 + + Coupling with CFD.............................. 0 + eq.0: off (default) + eq.1: FAST3D + eq.2: boundary element method + + + CONTROL CARD 18. Computation Options-Output Control + + printout of node, element, velocity input data. 0 + eq.0: on + eq.1: off + + time zero printout of element time step size... 0 + eq.0: no printout + eq.1: print dt for each element at t=0 + + problem status report interval in printer file. 100 + + number of cycles between restart dumps.........99999999 + + number of cycles between running restart dumps.99999999 + + number of files to rewrite running restart .... 1 + + printout of force types to bndout file......... + eq.0: on + eq.1: off + nodal force groups................. 0 + concentrated nodal forces.......... 0 + pressure boundary conditions....... 0 + disp/vel/acc nodal BC.............. 0 + + + node and element printout suppression.......... 0 + eq.1: nodal data is not echoed + eq.2: element data is not echoed + eq.3: node and element data is not echoed + debug information in messag file option........ 0 + eq.0: no + eq.1: yes + update of beam reference nodes................. 0 + eq.0: off + eq.1: on-unique reference nodes required + averaged acceleration-print/time history files. 0 + eq.0: no average (default) + eq.1: averaged between output intervals + eq.2: user defined filtering + output interval for interface file............. 0.4000E-03 + default print flag for the RBDOUT/MATSUM files 0 + eq.0: RBDOUT and MATSUM + eq.1: RBDOUT only + eq.2: MATSUM only + eq.3: no output + include eroded and lumped mass in MATSUM ...... 0 + eq.0: no + eq.1: yes + include 10-node connectivities in D3PLOT ...... 2 + eq.1: yes + eq.2: no + write spring forward database at termination... 0 + eq.0: no + eq.1: include all deformable nodes + eq.2: include nodes of material subset + d3plot and d3thdt binary output format......... 0 + eq.0 default + eq.1 32ieee + flush output file interval..................... 5000 + output interval for d3part database............ 0.0000E+00 + interval via load curve for part database...... 0 + number of part blocks.......................... 0 + Maximum number of messages..................... 0 + Print flag for digitized curve data............ 0 + Print info. of 1d belt created for 2d belt..... 0 + ELOUT shell output coordinate system flag...... 0 + eq.0 default + eq.1 local element coordinate system + eq.2 global coordinate sytstem + number of parts removed from d3plot ........... 0 + number of levels of timing at termination ..... 2 + max frequency of element failure summaries..... 1 + solid element stress extrapolation............. 0 + eq.0 default: no extrapolation + eq.1 extrapolate stress for linear materials only + eq.2 extrapolate stress if plastic strain is zero + eq.3 extrapolate stress always + eq.4 extrapolate all history variables + phase change output control.................... 0 + eq.0 default: no messag + eq.1 write out element ID at time of phase change + + + CONTROL CARD 19. Computation Options-Output Energy + + hourglass energy calculation................... 2 + eq.1: off (default) + eq.2: on + + rigid wall energy calculations................. 2 + eq.1: off (default) + eq.2: on + + contact energy calculation..................... 2 + eq.1: off + eq.2: on + + flag for rayleigh damping energy calculations.. 0 + eq.1: off (default) + eq.2: on + + flag for material energy in D3THDT file........ 2 + eq.1: off + eq.2: on (default) + + + CONTROL CARD 20. Computation Options-LS-POST Database + + time step between dumps of complete state data. 0.4000E-02 + + output interval for interface force database... 0.4000E-02 + + time step between dumps of time history data... 0.0000E+00 + + number of nodal printout blocks................ 0 + + number of solid element printout blocks........ 0 + + number of beam element printout blocks......... 0 + + number of discrete element printout blocks..... 0 + + number of seatbelt element printout blocks..... 0 + + number of shell element printout blocks........ 0 + + number of thick shell element printout blocks.. 0 + + load curve-interval between state data dumps... 0 + + behavior of state data dump curve.............. 1 + eq.1: load curve value added to current time + eq.2: plot time T=current t+curve at T + eq.3: plot at each ordinate point + + load curve-interval between force data dumps... 0 + + load curve-interval between history data dumps. 0 + + flag, user output into shell resultant vector.. 0 + eq.1: off (default) + eq.2: on, user subroutine is called + + number of subsystems for SSSTAT file .......... 0 + + behavior of intfor data curve.................. 1 + eq.1: load curve value added to current time + eq.2: plot time T=current t+curve at T + eq.3: plot at each ordinate point + + + CONTROL CARD 21. Computation Options LS-POST Database + + flag to write ls-post database during dyn rel.. 0 + eq.0: no database write (default) + eq.1: write database at convergence check + eq.n: write database at nth check + + number of extra history variables for solids... 0 + + number of integration points output/solid ..... 1 + + number of extra history var/int.pt for shells.. 0 + + number of integration points output/shell ..... 3 + lt.0: also output 4 points in plane + + flag for including strain tensor in database... 0 + STRFLG[NML] = L + N*10 + N*100 + eq.0: exclude (default) + L.eq.1: Write strain tensor data to d3plot & elout + M.EQ.1: Write plastic strain data to d3plot + N.EQ.1: Write thermal strain data to d3plot + + flag for including stress tensor in database... 1 + eq.1: include (default) + eq.2: exclude for shells, include for solids + eq.3: exclude for shells and solids + + flag for including effective plastic strain.... 1 + eq.1: include (default) + eq.2: exclude for shells, include for solids + eq.3: exclude for shells and solids + + flag for including shell resultants............ 1 + eq.1: include (default) + eq.2: exclude + + flag for including shell energy and thickness.. 1 + eq.1: include (default) + eq.2: exclude + + every state is written to a separate file...... 0 + eq.0: off (default) + eq.1: only one state per plotfile + + composite material stress output .............. 0 + eq.-1: same as 1, but fiber stress and strain + are engineering measured in material + 34 + eq. 0: global + eq. 1: local + eq. 2: local, additional information + output in place of shell resultants + + number of integration points output/beam ...... 0 + + data compression to eliminate rigid body data.. 1 + nodal velocities, and nodal accelerations + eq.1: off + eq.2: on -rigid bodies + eq.3: off-rigid bodies-on nodal data + eq.4: on -rigid bodies-on nodal data + + output shell element hourglass energy.......... 1 + eq.1: off + eq.2: on + + output shell element dt, mass, added mass...... 1 + eq.1: off + eq.2: output dt + eq.3: output mass + + peak pressure flag............................. 0 + eq.1: on + + filter parameter............................... 0.0000E+00 + + flag for solid element additional output....... 0 + eq.1: output 3 additional variables + eq.2: output 5 additional variables + eq.4: output 7 additional variables + + flag for scaled mass output to the d3plot file. 0 + eq.1: output mass increment + eq.2: output percentage increase + + flag for thermal data.......................... 1 + eq.0 or 1: output temperature + eq.2: output temperature and flux + eq.3: output temp, flux, and thick shell temps + + flag for including stress tensor at int. point 0 + eq.0: exclude (default) + eq.1: include stress (solid and shells) + + flag for including stress tensor at nodes ..... 0 + eq.0: exclude (default) + eq.1: include local stress (solid and shell) + eq.2: include global stress (solid and shell) + + flag for including strain tensor at int. point 0 + eq.0: exclude (default) + eq.1: include strains (solid and shells) + + flag for including strain tensor at nodes ..... 0 + eq.0: exclude (default) + eq.1: include local strain (solid and shell) + eq.2: include global strain (solid and shell) + output interval for blast force database....... 0.0000E+00 + lt.0: interval specified by load curve + + + CONTROL CARD 22. Computation Options-ASCII Output I + + output interval for cross section forces....... 0.0000E+00 + output interval for rigid wall forces ......... 0.4000E-03 + output interval for nodal print blocks......... 0.0000E+00 + output interval for element print blocks....... 0.0000E+00 + output interval for global statistics ......... 0.4000E-03 + output interval for subsystem statistics ...... 0.0000E+00 + output interval for discrete elements.......... 0.0000E+00 + output interval for material summaries......... 0.4000E-03 + output interval for nodal interface forces..... 0.0000E+00 + output mass properties in subsystem statistics. 0 + output mass properties in global statistics.... 0 + additional history variables output-solids..... 0 + additional history variables output-shells..... 0 + additional history variables output-tshells.... 0 + additional history variables output-beams...... 0 + + + + CONTROL CARD 23. Computation Options-ASCII Output II + + output interval for resultant interface forces. 0.4000E-03 + output interval for smug nodal data............ 0.0000E+00 + output interval for sp constraint forces....... 0.0000E+00 + output interval for nodal constraint forces.... 0.0000E+00 + output interval for airbag statistics.......... 0.0000E+00 + output interval for avs filter................. 0.0000E+00 + output interval for nodal force groups......... 0.0000E+00 + output interval for b.c. forces and energy .... 0.0000E+00 + + + + CONTROL CARD 24. Computation Options-ASCII Output III + + output interval for rigid body data............ 0.0000E+00 + output interval for geometric contact entities. 0.0000E+00 + output interval for mpgs database............. 0.0000E+00 + output interval for movie database............. 0.0000E+00 + output interval for interface energies......... 0.4000E-03 + output interval for seatbelt response.......... 0.0000E+00 + output interval for joint forces............... 0.0000E+00 + output interval for tracer particles........... 0.0000E+00 + output interval for discrete beam data......... 0.0000E+00 + output type for discrete beam data ............ 0 + curve id for discrete beam data ............... 0 + option for ascii output time for discrete beam. 0 + + output interval for pulley element data........ 0.0000E+00 + output type for pulley element data ........... 0 + curve id for pulley element data .............. 0 + option for ascii output time for pulley element 0 + + output interval for bearing element data........ 0.0000E+00 + output type for bearing element data ........... 1 + curve id for bearing element data .............. 0 + option for ascii output time for bearing ....... 0 + + output interval for des mass flow data.......... 0.0000E+00 + output type for des mass flow data ............. 1 + curve id for des mass flow data ................ 0 + option for ascii output time for des mass flow.. 0 + + output interval for curvout .................... 0.0000E+00 + output type for curvout ........................ 1 + curve id for curvout ........................... 0 + option for ascii output time for curvout ....... 0 + + + + CONTROL CARD 25. ALE 1st card + + Default continuum treatment.................... 0 + eq.1: Lagrangian (default) + eq.2: Eulerian + eq.3: Arbitrary Lagrangian Eulerian + eq.4: Eulerian Ambient + + Number of cycles between rezones............... 0 + + Advection formulation.......................... 0 + eq.1: Donor Cell + HIS + eq.2: Van Leer + HIS (default) + + Relaxation factor 1 (simple average)........... -0.1000E+01 + + Relaxation factor 2 (volume weighting)......... 0.0000E+00 + + Relaxation factor 3 (isoparametric)............ 0.0000E+00 + + Relaxation factor 4 (equipotential)............ 0.0000E+00 + + Relaxation factor 5 (equilibrium).............. 0.0000E+00 + + Output interval for euler statistics........... 0.0000E+00 + + + CONTROL CARD 26. ALE 2nd card + + time to begin rezoning......................... 0.0000E+00 + + time to end rezoning........................... 0.0000E+00 + + SALE advection factor.......................... 0.0000E+00 + + number of void materials....................... 0 + + Void factor.................................... 0.1000E-05 + + Automatic euler boundary condition flag........ 0.0000E+00 + eq.0: Off. + eq.1: On with stick condition. + eq.2: On with slip condition. + + Number of non-interacting Euler materials...... 0 + + Number of multi-material Euler groups.......... 0 + + Reference pressure............................. 0.0000E+00 + + Pressure equilibrium........................... 0 + eq.0: Off + eq.1: On + Number of parts considered in ALE convection... 0 + + Number of cycles between ALE coupling.......... 1 + + Number of cycles between ALE bucket sort....... 50 + + Number of ALE Multi-material group switching... 0 + + Number of ALE mixing length.................... 0 + + Number of ALE coupling to nodes ............... 0 + + Number of ALE essential boundaries ............ 0 + + Number of ALE tracer particles ................ 0 + + + CPM output format.............................. 11 + eq.11: Version 3 (full output) + eq.21: Version 4 (full output) + eq.22: (coordinates) + eq.23: (summary) + # of CPM airbag interaction.................... 0 + + # of cycle for CPM repartition................. 5 + CPM time step control.......................... 0 + eq.0: no control + eq.1: set CPM timestep size as 1 usec + CPM check bag and chamber connectivity......... 0 + eq.0: no + eq.1: yes (error termination if detected) + Scale factor of force decay constant........... 0.0000E+00 + Use new p2f contact algorithm (_P2FNEW)........ 0 + eq.0: no + eq.1: yes + + + PG output format............................... 11 + eq.11: Version 3 (full output) + eq.21: Version 4 (full output) + eq.22: (coordinates) + eq.23: (summary) + # of PG airbag interaction..................... 0 + + # of cycle for PG repartition.................. 5 + PG time step control........................... 0 + eq.0: no control + eq.1: set PG timestep size as 1 usec + + + CONTROL CARD 37. SPH 1st card + + Sort frequency................................. 1 + + Box activation................................. 0 + + First option................................... 0.1000E+11 + + Space dimension................................ 2 + + Memory allocation for neighbors MEMORY......... 150 + allocation type:........................ DYNAMIC + + Particle approximation......................... 0 + eq.0: Standard gather form (Lacome-Vila 1998) + eq.1: Renormalization (Ben Moussa-Vila 1998) + eq.2: Symmetric formulation (Benz 1989) + eq.3: Symmetric renormalization (Libersky 1993) + eq.4: Elliptic smoothing length + eq.5: Fluid formulation + eq.6: Renormalized fluid formulation + eq.7: Total Lagrangian formulation + eq.8: Renormalized Total Lagrangian formulation + + Start time of SPH analysis..................... 0.0000E+00 + + Maximum velocity............................... 0.1000E+16 + + Contact definition between SPH parts........... 0 + eq.0: Approximation is computed + eq.1: Approximation is not computed + + Time derivative for smoothing length........... 0 + Initial smooth length computation option....... 0 + Display options for SPH particles.............. 0 + Erosion control option for SPH particles....... 0 + Contact treatment for deactivated particles.... 0 + eq.0: Contact remains active + eq.1: Contact becomes inactive + + Artificial viscosity for SPH particles......... 0 + eq.0: Monaghan type bulk viscosity (change + to bulk coefficents recommended) + eq.1: Solid elements type bulk viscosity + SPH Pressure smoothing parameter............... 0.1000E+01 + + + + CONTROL CARD 38. SPH group number............. 1 + + Number of particles............................ 25 + + Number of material............................. 101 + + Smoothing length constant...................... 0.1300E+01 + + Minimum smoothing length ...................... 0.2000E+00 + + Maximum smoothing length ...................... 0.2000E+01 + + Initial smoothing length ...................... 0.0000E+00 + eq.0: calculated by LS-DYNA + + Death time for SPH material.................... 0.1000E+21 + + Start time for SPH material.................... 0.0000E+00 + + + + + CONTROL CARD 50. EFG + + ispline ....................................... 0 + + idila.......................................... 0 + + inint.......................................... 0 + + iefgs.......................................... 0 + + intfs.......................................... 0 + + + + p a r t d e f i n i t i o n s + + material type + eq.1 isotropic + eq.2 orthotropic + eq.3 elastoplastic ( von mises ) + eq.4 thermo-elastic-plastic + eq.5 soil and crushable foam model + eq.6 viscoelastic model + eq.7 blatz-ko finite elastic rubber + eq.8 high explosive model + eq.9 null material + eq.10 hydrodynamic - elastic-plastic + eq.11 steinberg - guinan model + eq.12 isotropic elastic-plastic + eq.13 elastic-plastic with failure + eq.14 crushable foam with failure + eq.15 johnson/cook plasticity model + eq.16 pseudo tensor geological model + eq.17 elastoplastic with fracture + eq.18 power law isotropic plasticity + eq.19 strainrate sensitive plasticity + eq.20 rigid material + eq.21 thermal orthotropic(12 constants) + eq.22 composite material damage model + eq.23 thermal orthotropic(12 curves) + eq.24 piecewise linear plasticity + eq.25 soil cap model by taylor + eq.26 crushable metallic honeycomb + eq.27 hyperelastic mooney-rivlin + eq.28 shell/beam resultant plasticity + eq.29 beam resultant force limited + eq.30 shape-memory alloy + eq.31 frazer-nash rubber model + eq.32 safety glass + eq.33 barlat's anisotropic plasticity + eq.34 fabric + eq.35 elastoplastic (green-naghdi rate) + eq.36 barlat's 3-parameter plasticity + eq.37 anisotropic plasticity model + eq.38 blatz-ko finite elastic foam + eq.39 fld anisotropic plasticity + eq.40 nonlinear orthotropic elastic + eq.41-50 user material models + eq.51 bammann plasticity model + eq.52 sandia damage model + eq.53 crushable cellular foam + eq.54 composite damage model(hashin) + eq.55 composite damage model(tsai-wu) + eq.57 low density urethane foam + eq.58 laminated composite fabric + eq.59 composite failure + eq.60 viscous glass model model + eq.61 maxwell/kelvin viscoelastic + eq.62 viscous foam model + eq.63 crushable foam model + eq.64 rate sensitive powerlaw plasticity + eq.65 modified armstrong-zerrilli model + eq.66 elastic resultant beams + eq.67 nonlinear elastic via load curves + eq.68 plastic resultant via load curves + eq.69 sid impact dummy damper + eq.70 hydraulic/gas damper + eq.71 cable + eq.72 k & c concrete damage + eq.73 low density viscous foam + eq.74 elastic spring discrete beam + eq.75 bilkhu/dubois crushable foam + eq.76 linear viscoelastic + eq.77 general hyperelastic/ogden + eq.78 soil/concrete + eq.79 hysteretic soil + eq.80 ramberg-osgood + eq.81 plastic damage model + eq.82 plastic orthotropic damage model + eq.83 fu-chang rate sensitive foam model + eq.84 reinforced concrete (aea winfrith, 1990) + eq.86 orthotropic viscoelastic + eq.87 cellular viscoelastic rubber + eq.88 material threshold stress (mts) + eq.89 plasticity polymer + eq.90 acoustic media + eq.91 hyperelastic soft tissue + eq.92 visco-hyperelastic soft tissue + eq.93 elastic 6-dof spring + eq.94 inelastic spring discrete beam + eq.95 inelastic 6-dof spring + eq.96 brittle damage + eq.97 general joint discrete beam + eq.98 simplified johnson cook + eq.99 simplified johnson cook with damage + eq.100 spotweld material + eq.101 ge rate sensitive plasticity + eq.102 inverse hyperbolic sine + eq.103 viscoplastic model (ntnu, 1996) + eq.104 damage model 1 (ntnu, 1997) + eq.105 damage model 2 (ntnu, 1997) + eq.106 elastic viscoplastic thermal + eq.107 modified johnson cook + eq.108 orthotropic elastic plastic + eq.110 johnson/holmquist ceramics + eq.111 johnson/holmquist concrete + eq.112 finite elastic strain plasticity + eq.113 trip for austenitic stainless + eq.114 layered piecewise linear plasticity + eq.115 unified creep + eq.116 composite lay up + eq.117 composite matrix + eq.118 composite direct + eq.119 general nonlinear 6dof discrete beam + eq.120 gurson + eq.121 general nonlinear 1dof discrete beam + eq.122 hill 3r + eq.123 modified piecewise linear plasticity + eq.124 compression-tension plasticity + eq.125 yoshida kinematic plasticity model + eq.126 crushable metallic honeycomb + eq.127 arruda-boyce hyper-viscoelastic + eq.128 heart tissue + eq.129 lung hyper-viscoelastic + eq.130 special orthotropic + eq.131 tno isotropic smeared crack model + eq.132 tno orthotropic smeared crack model + eq.133 barlat yld2000 + eq.135 wtm/stm + eq.136 orthotropic vegter model + eq.137 anisotropic ito-goya model + eq.139 modified resultant beam force limited + eq.140 vacuum + eq.141 rate sensitive polymer + eq.142 anisotropic crushable foam + eq.143 aptek orthotropic wood + eq.144 pitzer crushable foam + eq.145 continuous surface cap with damage + eq.146 1dof generalized spring + eq.147 fhwa soil + eq.148 gas mixture + eq.150 cfd - constant properties + eq.152 hyperbolic tangent thermal + eq.153 damage model 3 + eq.154 deshpande fleck foam model + eq.155 compression-tension eos model + eq.156 muscle model + eq.157 anisotropic elastic plastic + eq.158 rate sensitive composite fabric + eq.159 continuous surface cap + eq.161 composite msc + eq.162 composite dmg msc + eq.163 modified crushable foam + eq.164 brain linear viscoelastic + eq.165 plastic nonlinear kinematic + eq.166 moment curvature beam + eq.167 mccormick + eq.168 polymer + eq.169 arup adhesive + eq.170 resultant anisotropic + eq.171 steel concentric brace + eq.172 concrete ec2 + eq.173 mohr couloumb + eq.174 rc beam + eq.176 quasilinear viscoelastic + eq.177 hill foam + eq.178 viscoelastic hill foam + eq.179 low density synthetic foam + eq.180 low density synthetic foam ortho + eq.181 simplified rubber model + eq.182 viscoelastic plastic model + eq.187 semi-analytical model for polymers + eq.188 thermo elastic viscoplastic creep + eq.189 anisotropic thermo elastic + eq.190 barlat 3-parameter fld plasticity + eq.191 seismic beam + eq.192 soil brick + eq.193 drucker prager + eq.194 rc shear wall + eq.195 concrete beam + eq.196 general spring discrete beam + eq.197 seismic isolator + eq.198 jointed rock + eq.202 steel EC3 + eq.203 hysteretic reinforcement + eq.206 Park Ang beam + eq.208 bolt beam + eq.213 awg composite damage + eq.214 dry fabric + eq.219 codam2 + eq.220 rigid material discrete particles + eq.221 orthotropic simplified damage + eq.222 genoa material for laminates + eq.223 orthotropic advanced damage + eq.224 tabulated johnson cook + eq.225 viscoplastic mixed hardening + eq.230 elastic pml + eq.231 acoustic pml + eq.232 biot hysteretic + eq.233 cazacu barlat + eq.234 viscoelastic loose fabric + eq.235 micromechanics dry fabric + eq.236 silicon carbid coating on RCC + eq.237 hysteretic pml + eq.242 barlat yld2000 Yoshida hardening + eq.243 hill 90 + eq.244 ultra high strength steel + eq.248 press hardening steel bmw model + eq.249 reinforced thermoplastic + eq.251 tailored properties + eq.252 toughened adhesive polymer + eq.255 piecewise linear plastic thermal + eq.256 amorphous solids finite stain + eq.258 non quadratic with failure + eq.260 Stoughton non-associated flow + eq.261 laminated fracture daimler pinho + eq.262 laminated fracture daimler camanho + eq.264 tabulated johnson cook ortho plastic + eq.266 tissue dispersed + eq.267 eight chain rubber + eq.269 bergstrom-boyce rubber model + eq.270 computational welding mechanics model + eq.271 powder compaction model + eq.272 RHT concrete + eq.273 CDPM concrete + eq.274 paper + eq.275 smooth viscoelastic viscoplastic + equation-of-state types + eq.1 linear polynomial + eq.2 jwl high explosive + eq.3 sack tuesday high explosive + eq.4 gruneisen + eq.5 ratio of polynomials + eq.6 linear polynomial with source + eq.7 initiation and reaction in he + eq.8 compaction + eq.9 tabulated + eq.11 tensor pore collapse + eq.14 jwlb high explosive + eq.15 one-dimensional gasket + eq.16 mie-gruneisen with p-alpha + hourglass models + eq.1 viscous + eq.2 flanagan-belytschko viscous form + eq.3 full flanagan-belytschko viscous form + (constant stress solid elements) + eq.4 flanagan-belytschko stiffness form + eq.5 full flanagan-belytschko stiffness form + eq.6 bindeman-belytschko stiffness form + (solid 2d and 3d elements) + eq.7 linear total strain stiffness form + (solid 2d and 3d elements) + eq.9 puso stiffness form (solid 3d elements) + eq.10 cosserat total strain stiffness form + (solid 3d elements) + bulk viscosity models + eq.1 standard + defaults + hourglass model....................... 2 + hourglass coefficient................. 1.00000E-01 + bulk viscosity type................... 1 + quadratic bulk viscosity coefficient.. 1.50000E+00 + linear bulk viscosity coefficient..... 6.00000E-02 + + *********************************************************************** + + + + + part id ..................... 101 + section id ..................... 101 + material id ..................... 1 + section title .................. + + material title .................. + + material type .............. 3 + equation-of-state type ..... 0 + hourglass type ............. 2 + bulk viscosity type ........ 1 + + density .......................... = 2.71000E-03 + hourglass coefficient ............ = 1.00000E-01 + quadratic bulk viscosity ......... = 1.50000E+00 + linear bulk viscosity ............ = 6.00000E-02 + element type ..................... = 0 + eq.0: 4, 6, 8, 10-node solid element or SPH element + eq.1: 2-node beam or truss or 2D shell element + eq.2: 3, 4-node membrane/shell or 2D continuum element + eq.3: 8-node thick shell element + + flag for bulk viscosity in shells. = 0 + flag for rbdout/matsum output ... = 0 + eq.0: rbdout and matsum + eq.1: rbdout only + eq.2: matsum only + eq.3: no output + static coefficient of friction ... = 0.00000E+00 + kinetic coefficient of friction... = 0.00000E+00 + exponential decay coefficient .... = 0.00000E+00 + viscous friction coefficient ..... = 0.00000E+00 + optional contact thickness ....... = 0.00000E+00 + optional thickness scale factor... = 0.00000E+00 + local penalty scale factor........ = 0.00000E+00 + optional beam to beam cparm8...... = 0 + flag for adaptive remeshing ...... = 0 + eq.0: inactive + eq.1: h-adaptive only + eq.2: r-adaptive only + rayleigh damping coefficient...... = 0.00000E+00 + e ................................ = 6.89000E+04 + vnu .............................. = 3.30000E-01 + yield ............................ = 1.17000E+02 + e (harden) ....................... = 6.80000E+00 + hardening parmeter ............... = 1.00000E+00 + strainrate parameter, c .......... = 0.00000E+00 + strainrate parameter, p .......... = 0.00000E+00 + formulation for rate effects ..... = 0.00000E+00 + eq.0.0: default + eq.1.0: viscoplastic + failure strain for erosion........ = 0.00000E+00 + solid formulation ............... = 1 + eq.-2: 8 point integration-3dof/node + for poor aspect ratio elements + eq.-1: 8 point integration-3dof/node + for poor aspect ratio elements + (efficient variant of -2 but + prone to some hourglassing) + eq. 1: 1 point integration + eq. 2: 8 point integration-3dof/node + eq. 3: 14 point integration-6dof/node + eq. 4: 5 point tetrahedron-6dof/node + eq. 5: 1 point ale + eq. 6: 1 point eulerian + eq. 7: 1 point eulerian ambient + eq. 8: 1 point acoustic + eq. 9: 1 point corotational + eq.10: 1 point tetrahedron + eq.11: multi-material eulerian + eq.12: eulerian with void + eq.13: nodal pressure tetrahedron + eq.14: 8 point acoustic + eq.15: 2 point pentahedron + eq.115: 1 point pentahedron + eq.16: 10-node quadratic tetrahedron + eq.17: 10-node composite tetrahedron + eq.18: linear static element + eq.19: 8-node 2x2 cohesive + eq.20: 8-node 2x2 cohesive with offsets for shells + eq.21: 6-node 1x1 cohesive + eq.22: 6-node 1x1 cohesive with offsets for shells + eq.23: 20-node quadratic hexahedron + eq.41: efg 3d + eq.42: efg 3d for 4-noded background + eq.43: mesh-free enriched finite element + eq.47: smoothed particle Galerkin method + eq.99: elastic vibration element + corotational local coord. ........ = 0 + eq. 0: not requested + eq. 1: requested + + *********************************************************************** + + + null shells for visualization + + part id ..................... 1 + section id ..................... -12345677 + material id ..................... 0 + section title .................. + + material title .................. + + material type .............. 9 + equation-of-state type ..... 0 + hourglass type ............. 2 + bulk viscosity type ........ 1 + + density .......................... = 1.30000E-13 + hourglass coefficient (membrane).. = 1.00000E-01 + hourglass coefficient (rotation).. = 1.00000E-01 + hourglass coefficient (warping ).. = 1.00000E-01 + quadratic bulk viscosity ......... = 1.50000E+00 + linear bulk viscosity ............ = 6.00000E-02 + element type ..................... = 2 + eq.0: 4, 6, 8, 10-node solid element or SPH element + eq.1: 2-node beam or truss or 2D shell element + eq.2: 3, 4-node membrane/shell or 2D continuum element + eq.3: 8-node thick shell element + + flag for bulk viscosity in shells. = 0 + flag for rbdout/matsum output ... = 0 + eq.0: rbdout and matsum + eq.1: rbdout only + eq.2: matsum only + eq.3: no output + static coefficient of friction ... = 0.00000E+00 + kinetic coefficient of friction... = 0.00000E+00 + exponential decay coefficient .... = 0.00000E+00 + viscous friction coefficient ..... = 0.00000E+00 + optional contact thickness ....... = 0.00000E+00 + optional thickness scale factor... = 0.00000E+00 + local penalty scale factor........ = 0.00000E+00 + optional beam to beam cparm8...... = 0 + flag for adaptive remeshing ...... = 0 + eq.0: inactive + eq.1: h-adaptive only + eq.2: r-adaptive only + rayleigh damping coefficient...... = 0.00000E+00 + pressure cutoff .................. = 0.00000E+00 + viscosity coefficient ............ = 0.00000E+00 + relative volume for tensile fail.. = 0.00000E+00 + relative volume for compres fail.. = 0.00000E+00 + e ..(null shells and beams)....... = 0.00000E+00 + vnu (null shells and beams)....... = 0.00000E+00 + shear area factor ................ = 1.00000E+00 + thru-thickness integration points = 2.00000E+00 + print out option ................. = 3.00000E+00 + eq.1.0:average resultants & fiber lengths + eq.2.0:resultants at plan points & fiber lengths + eq.3.0:resultants,stresses all points & fiber lengths + + integration rule ................. = 0.00000E+00 + lt.0.0:absolute value is specified rule # + eq.0.0:gauss (trapezoidal if > 10 IP) + eq.1.0:trapezoidal rule + shell formulation ................ = 2 + eq. 1: hughes-liu + eq. 2: belytschko-tsay + eq. 3: bciz + eq. 4: c0-triangular element + eq. 5: membrane element + eq. 6: s/r hughes-liu + eq. 7: s/r co-rotational hughes-liu + eq. 8: belytschko-leviathan + eq. 9: fully integrated membrane + eq. 10: belytschko-wong-chiang + eq. 11: fast hughes-liu + eq. 12: 2d plane stress + eq. 13: 2d plane strain + eq. 14: 2d axisymmetric (area wgt) + eq. 15: 2d axisymmetric (volume wgt) + eq. 16: fully integrated element + eq. 17: dkt element + eq. 18: dkq-dkt linear element + eq. 20: assumed strain linear element + eq. 21: assumed strain linear elem(5DOF) + eq. 22: linear shear panel element(3DOF) + eq. 23: 8-node quadratic quadrilateral + eq. 24: 6-node quadratic triangular + eq. 25: belytschko-tsay with + thickness stretch + eq. 26: fully integrated element with + thickness stretch + eq. 27: c0-triangular element with + thickness stretch + eq. 29: cohesive element + eq. 41: meshfree shell local projection + eq. 42: meshfree shell global projection + eq. 43: meshfree plane strain + eq. 44: meshfree axisymmetric solid + eq. 46: cohesive element + eq. 47: cohesive with shell offsets + eq. 55: 8-node 2D plane strain fracture + eq. 98: interpolation shell element + eq. 99: elastic vibration element + eq. 201: isogeometric nurbs element + ge.1000: user defined (generalized) shell + shell thickness: node 1 .. = 1.00000E-09 + node 2 .. = 1.00000E-09 + node 3 .. = 1.00000E-09 + node 4 .. = 1.00000E-09 + + reference surface ................ = 0.00000E+00 + eq. 1.0:top + eq. 0.0:middle + eq.-1.0:bottom + + mass per unit area ............... = 0.00000E+00 + + flag for discontinuous thickness + field for elements with thickness + stretch .......................... = 2 + eq. 0: default is 1 + eq. 1: thickness field is continuous + eq. 2: thickness field is discontinous + accurate type 16 formulation...... = 0 + + + + n o d a l p o i n t c o o r d i n a t e s + + node ID trnbc x-ord y-ord z-ord rotbc + 1001801 0.0 0.4998E+00 -0.1105E+02 0.0000E+00 0.0 + 1001802 0.0 0.7115E+00 -0.1105E+02 0.0000E+00 0.0 + 1001803 0.0 0.9232E+00 -0.1105E+02 0.0000E+00 0.0 + 1001804 0.0 0.1135E+01 -0.1105E+02 0.0000E+00 0.0 + 1001805 0.0 0.1347E+01 -0.1105E+02 0.0000E+00 0.0 + 1001921 0.0 0.4998E+00 -0.1086E+02 0.0000E+00 0.0 + 1001922 0.0 0.7115E+00 -0.1086E+02 0.0000E+00 0.0 + 1001923 0.0 0.9232E+00 -0.1086E+02 0.0000E+00 0.0 + 1001924 0.0 0.1135E+01 -0.1086E+02 0.0000E+00 0.0 + 1001925 0.0 0.1347E+01 -0.1086E+02 0.0000E+00 0.0 + 1002041 0.0 0.4998E+00 -0.1067E+02 0.0000E+00 0.0 + 1002042 0.0 0.7115E+00 -0.1067E+02 0.0000E+00 0.0 + 1002043 0.0 0.9232E+00 -0.1067E+02 0.0000E+00 0.0 + 1002044 0.0 0.1135E+01 -0.1067E+02 0.0000E+00 0.0 + 1002045 0.0 0.1347E+01 -0.1067E+02 0.0000E+00 0.0 + 1002161 0.0 0.4998E+00 -0.1048E+02 0.0000E+00 0.0 + 1002162 0.0 0.7115E+00 -0.1048E+02 0.0000E+00 0.0 + 1002163 0.0 0.9232E+00 -0.1048E+02 0.0000E+00 0.0 + 1002164 0.0 0.1135E+01 -0.1048E+02 0.0000E+00 0.0 + 1002165 0.0 0.1347E+01 -0.1048E+02 0.0000E+00 0.0 + 1002281 0.0 0.4998E+00 -0.1029E+02 0.0000E+00 0.0 + 1002282 0.0 0.7115E+00 -0.1029E+02 0.0000E+00 0.0 + 1002283 0.0 0.9232E+00 -0.1029E+02 0.0000E+00 0.0 + 1002284 0.0 0.1135E+01 -0.1029E+02 0.0000E+00 0.0 + 1002285 0.0 0.1347E+01 -0.1029E+02 0.0000E+00 0.0 + 1002286 7.0 0.0000E+00 -0.1026E+02 0.2540E-01 7.0 + 1002287 7.0 0.0000E+00 -0.1026E+02 -0.2540E-01 7.0 + 1002288 7.0 0.0000E+00 -0.1107E+02 -0.2540E-01 7.0 + 1002289 7.0 0.0000E+00 -0.1107E+02 0.2540E-01 7.0 + + + + n o d a l s p c s u m m a r y o n *NODE cards + boundary conditions (on=1) + node x y z rx ry rz + 1002286 1 1 1 1 1 1 + 1002287 1 1 1 1 1 1 + 1002288 1 1 1 1 1 1 + 1002289 1 1 1 1 1 1 + + + + s h e l l e l e m e n t s + + elem id part id node1 node2 node3 node4 + thick1 thick2 thick3 thick4 angle offset + 1 1 1002286 1002287 1002288 1002289 + 1.0000E-09 1.0000E-09 1.0000E-09 1.0000E-09 0.0000E+00 0.0000E+00 + + + + S P H e l e m e n t m a s s d a t a + + element id mat id mass + 1001801 101 0.1093E-03 + 1001802 101 0.1093E-03 + 1001803 101 0.1093E-03 + 1001804 101 0.1093E-03 + 1001805 101 0.1093E-03 + 1001921 101 0.1093E-03 + 1001922 101 0.1093E-03 + 1001923 101 0.1093E-03 + 1001924 101 0.1093E-03 + 1001925 101 0.1093E-03 + 1002041 101 0.1093E-03 + 1002042 101 0.1093E-03 + 1002043 101 0.1093E-03 + 1002044 101 0.1093E-03 + 1002045 101 0.1093E-03 + 1002161 101 0.1093E-03 + 1002162 101 0.1093E-03 + 1002163 101 0.1093E-03 + 1002164 101 0.1093E-03 + 1002165 101 0.1093E-03 + 1002281 101 0.1093E-03 + 1002282 101 0.1093E-03 + 1002283 101 0.1093E-03 + 1002284 101 0.1093E-03 + 1002285 101 0.1093E-03 + + + + r i g i d w a l l d e f i n i t i o n s + + + + + rigidwall ID = 1 + # of slave nodes = 29 + birth time = 0.00000E+00 + death time = 0.10000E+21 + penalty scale factor = 0.10000E+01 + moving rigidwall flag = 0 + eq.1: flat rigidwall has mass and vel. + eq.2: prescribed velocity history + eq.3: prescribed displacement history + generalized rigidwall type = 0 + eq.0: flat of infinite extent + eq.1: flat with defined size + eq.2: extra nodes and softening + eq.3: options 2 and 3 active + eq.4: prescribed motion flat plate + eq.5: prescribed motion cylinder + eq.6: prescribed motion sphere + eq.7: prescribed motion prism + eq.8: prescribed motion cylinder (interior) + eq.9: prescribed motion sphere (interior) + stick condtion = 0.00000E+00 + eq.0: frictionless sliding + gt.0.and.lt.1:frictional sliding + eq.1: sticking + eq.2: normal weld + eq.3: sticking weld + + coordinates of orientation vector are + i j + 0.0000E+00 0.1000E+01 + 0.0000E+00 0.0000E+00 + 0.0000E+00 0.0000E+00 + slave nodes + 1. 1001801 + 2. 1001802 + 3. 1001803 + 4. 1001804 + 5. 1001805 + 6. 1001921 + 7. 1001922 + 8. 1001923 + 9. 1001924 + 10. 1001925 + 11. 1002041 + 12. 1002042 + 13. 1002043 + 14. 1002044 + 15. 1002045 + 16. 1002161 + 17. 1002162 + 18. 1002163 + 19. 1002164 + 20. 1002165 + 21. 1002281 + 22. 1002282 + 23. 1002283 + 24. 1002284 + 25. 1002285 + 26. 1002286 + 27. 1002287 + 28. 1002288 + 29. 1002289 + + + + n o d a l p o i n t v e l o c i t i e s + + node id x-vel y-vel z-vel + x-rot y-rot z-rot + 1001801 -5.0000E+01 0.0000E+00 0.0000E+00 + 0.0000E+00 0.0000E+00 0.0000E+00 + 1001802 -5.0000E+01 0.0000E+00 0.0000E+00 + 0.0000E+00 0.0000E+00 0.0000E+00 + 1001803 -5.0000E+01 0.0000E+00 0.0000E+00 + 0.0000E+00 0.0000E+00 0.0000E+00 + 1001804 -5.0000E+01 0.0000E+00 0.0000E+00 + 0.0000E+00 0.0000E+00 0.0000E+00 + 1001805 -5.0000E+01 0.0000E+00 0.0000E+00 + 0.0000E+00 0.0000E+00 0.0000E+00 + 1001921 -5.0000E+01 0.0000E+00 0.0000E+00 + 0.0000E+00 0.0000E+00 0.0000E+00 + 1001922 -5.0000E+01 0.0000E+00 0.0000E+00 + 0.0000E+00 0.0000E+00 0.0000E+00 + 1001923 -5.0000E+01 0.0000E+00 0.0000E+00 + 0.0000E+00 0.0000E+00 0.0000E+00 + 1001924 -5.0000E+01 0.0000E+00 0.0000E+00 + 0.0000E+00 0.0000E+00 0.0000E+00 + 1001925 -5.0000E+01 0.0000E+00 0.0000E+00 + 0.0000E+00 0.0000E+00 0.0000E+00 + 1002041 -5.0000E+01 0.0000E+00 0.0000E+00 + 0.0000E+00 0.0000E+00 0.0000E+00 + 1002042 -5.0000E+01 0.0000E+00 0.0000E+00 + 0.0000E+00 0.0000E+00 0.0000E+00 + 1002043 -5.0000E+01 0.0000E+00 0.0000E+00 + 0.0000E+00 0.0000E+00 0.0000E+00 + 1002044 -5.0000E+01 0.0000E+00 0.0000E+00 + 0.0000E+00 0.0000E+00 0.0000E+00 + 1002045 -5.0000E+01 0.0000E+00 0.0000E+00 + 0.0000E+00 0.0000E+00 0.0000E+00 + 1002161 -5.0000E+01 0.0000E+00 0.0000E+00 + 0.0000E+00 0.0000E+00 0.0000E+00 + 1002162 -5.0000E+01 0.0000E+00 0.0000E+00 + 0.0000E+00 0.0000E+00 0.0000E+00 + 1002163 -5.0000E+01 0.0000E+00 0.0000E+00 + 0.0000E+00 0.0000E+00 0.0000E+00 + 1002164 -5.0000E+01 0.0000E+00 0.0000E+00 + 0.0000E+00 0.0000E+00 0.0000E+00 + 1002165 -5.0000E+01 0.0000E+00 0.0000E+00 + 0.0000E+00 0.0000E+00 0.0000E+00 + 1002281 -5.0000E+01 0.0000E+00 0.0000E+00 + 0.0000E+00 0.0000E+00 0.0000E+00 + 1002282 -5.0000E+01 0.0000E+00 0.0000E+00 + 0.0000E+00 0.0000E+00 0.0000E+00 + 1002283 -5.0000E+01 0.0000E+00 0.0000E+00 + 0.0000E+00 0.0000E+00 0.0000E+00 + 1002284 -5.0000E+01 0.0000E+00 0.0000E+00 + 0.0000E+00 0.0000E+00 0.0000E+00 + 1002285 -5.0000E+01 0.0000E+00 0.0000E+00 + 0.0000E+00 0.0000E+00 0.0000E+00 + 1002286 -5.0000E+01 0.0000E+00 0.0000E+00 + 0.0000E+00 0.0000E+00 0.0000E+00 + 1002287 -5.0000E+01 0.0000E+00 0.0000E+00 + 0.0000E+00 0.0000E+00 0.0000E+00 + 1002288 -5.0000E+01 0.0000E+00 0.0000E+00 + 0.0000E+00 0.0000E+00 0.0000E+00 + 1002289 -5.0000E+01 0.0000E+00 0.0000E+00 + 0.0000E+00 0.0000E+00 0.0000E+00 + + *** S.P.H. *** + + Space dimension for SPH 2 + + Initial Smoothing length : PART # 101 0.2751672E+00 + SPH PART # 101 + hmin : 0.5503E-01 + hmax : 0.5503E+00 + +************ + + + + + + + + + t i e d n o d a l p a i r s f o r l i n k i n g + + + ************************************************************ + + + m a s s p r o p e r t i e s o f SPH p a r t # 101 + total mass of part = 0.27318476E-02 + x-coordinate of mass center = 0.92316645E+00 + y-coordinate of mass center =-0.10666248E+02 + z-coordinate of mass center = 0.00000000E+00 + + inertia tensor of material + row1= 0.1983E-03 0.3725E-08 0.0000E+00 + row2= 0.3725E-08 0.2448E-03 0.0000E+00 + row3= 0.0000E+00 0.0000E+00 0.4431E-03 + + ************************************************************ + + + m a s s p r o p e r t i e s o f p a r t # 1 + total mass of part = 0.53677346E-23 + x-coordinate of mass center = 0.00000000E+00 + y-coordinate of mass center =-0.57253590E-06 + z-coordinate of mass center = 0.00000000E+00 + + inertia tensor of material + row1= 0.6116E-21 0.0000E+00 0.0000E+00 + row2= 0.0000E+00 0.3463E-26 0.0000E+00 + row3= 0.0000E+00 0.0000E+00 0.6116E-21 + + principal inertias + i11 = 0.6116E-21 + i22 = 0.3463E-26 + i33 = 0.6116E-21 + + principal directions + row1= 0.1000E+01 0.0000E+00 0.0000E+00 + row2= 0.0000E+00 0.1000E+01 0.0000E+00 + row3= 0.0000E+00 0.0000E+00 0.1000E+01 + + ************************************************************ + + + m a s s p r o p e r t i e s o f b o d y + total mass of body = 0.27318473E-02 + x-coordinate of mass center = 0.92316651E+00 + y-coordinate of mass center =-0.10666249E+02 + z-coordinate of mass center = 0.00000000E+00 + + inertia tensor of body + row1= 0.1983E-03 0.1863E-08 0.0000E+00 + row2= 0.1863E-08 0.2448E-03 0.0000E+00 + row3= 0.0000E+00 0.0000E+00 0.4431E-03 + + principal inertias of body + i11 = 0.1983E-03 + i22 = 0.2448E-03 + i33 = 0.4431E-03 + + principal directions + row1= 0.1000E+01 0.4004E-04 0.0000E+00 + row2= -0.4004E-04 0.1000E+01 0.0000E+00 + row3= 0.0000E+00 0.0000E+00 0.1000E+01 + + ************************************************************ + + + ************************************************************ + + NOTE : For 2D axisymmetric problems the following + masses are reported per radian. + For 2D plain strain/stress problems the + masses are reported per unit thickness. + + summary of mass + lumped mass in deformable + part of structure mass= 0.00000000E+00 + part id = 101 mass= 0.27318476E-02 + part id = 1 mass= 0.53677342E-23 + + t o t a l m a s s = 0.27318476E-02 + x-coordinate of mass center = 0.92316651E+00 + y-coordinate of mass center =-0.10666249E+02 + z-coordinate of mass center = 0.00000000E+00 + + + + ************************************************************ + + + S t o r a g e a l l o c a t i o n + + Memory required to begin solution : 365K + Additional dynamically allocated memory: 419K + Total: 419K + + 25 smallest timesteps + ------------------------------------------------ + element number part timestep + sph 1002285 101 6.0802E-05 + sph 1002284 101 6.0802E-05 + sph 1002283 101 6.0802E-05 + sph 1002282 101 6.0802E-05 + sph 1002281 101 6.0802E-05 + sph 1002165 101 6.0802E-05 + sph 1002164 101 6.0802E-05 + sph 1002163 101 6.0802E-05 + sph 1002162 101 6.0802E-05 + sph 1002161 101 6.0802E-05 + sph 1002045 101 6.0802E-05 + sph 1002044 101 6.0802E-05 + sph 1002043 101 6.0802E-05 + sph 1002042 101 6.0802E-05 + sph 1002041 101 6.0802E-05 + sph 1001925 101 6.0802E-05 + sph 1001924 101 6.0802E-05 + sph 1001923 101 6.0802E-05 + sph 1001922 101 6.0802E-05 + sph 1001921 101 6.0802E-05 + sph 1001805 101 6.0802E-05 + sph 1001804 101 6.0802E-05 + sph 1001803 101 6.0802E-05 + sph 1001802 101 6.0802E-05 + sph 1001801 101 6.0802E-05 + 1 t 0.0000E+00 dt 6.08E-05 flush i/o buffers 08/31/25 16:54:00 + 1 t 0.0000E+00 dt 6.08E-05 write d3plot file 08/31/25 16:54:00 + 66 t 3.9521E-03 dt 6.08E-05 write d3plot file 08/31/25 16:54:00 + 132 t 7.9651E-03 dt 6.08E-05 write d3plot file 08/31/25 16:54:00 + 198 t 1.1982E-02 dt 6.08E-05 write d3plot file 08/31/25 16:54:00 + 264 t 1.5992E-02 dt 6.08E-05 write d3plot file 08/31/25 16:54:00 + 329 t 1.9947E-02 dt 6.08E-05 write d3plot file 08/31/25 16:54:00 + 395 t 2.3959E-02 dt 6.08E-05 write d3plot file 08/31/25 16:54:00 + 461 t 2.7972E-02 dt 6.08E-05 write d3plot file 08/31/25 16:54:00 + 527 t 3.1984E-02 dt 6.08E-05 write d3plot file 08/31/25 16:54:00 + + *** termination time reached *** + 576 t 3.5024E-02 dt 6.08E-05 write d3dump01 file 08/31/25 16:54:00 + 576 t 3.5024E-02 dt 6.08E-05 write d3plot file 08/31/25 16:54:00 + + N o r m a l t e r m i n a t i o n 08/31/25 16:54:00 + + S t o r a g e a l l o c a t i o n + + Memory required to complete solution : 365K + Additional dynamically allocated memory: 427K + Total: 427K + + T i m i n g i n f o r m a t i o n + CPU(seconds) %CPU Clock(seconds) %Clock + ---------------------------------------------------------------- + Keyword Processing ... 0.0000E+00 0.00 1.6000E-02 1.28 + KW Reading ......... 0.0000E+00 0.00 2.0000E-03 0.16 + KW Writing ......... 0.0000E+00 0.00 5.0000E-03 0.40 + Initialization ....... 1.0000E+00 100.00 1.1780E+00 94.16 + Init Proc Phase 1 .. 0.0000E+00 0.00 9.0000E-03 0.72 + Init Proc Phase 2 .. 0.0000E+00 0.00 4.0000E-03 0.32 + Element processing ... 0.0000E+00 0.00 1.1000E-02 0.88 + Shells ............. 0.0000E+00 0.00 1.0000E-03 0.08 + Binary databases ..... 0.0000E+00 0.00 8.0000E-03 0.64 + ASCII database ....... 0.0000E+00 0.00 1.9000E-02 1.52 + Rigid wall ........... 0.0000E+00 0.00 1.0000E-03 0.08 + Others ............... 0.0000E+00 0.00 1.0000E-03 0.08 + Misc. 1 .............. 0.0000E+00 0.00 4.0000E-03 0.32 + Misc. 2 .............. 0.0000E+00 0.00 1.0000E-03 0.08 + Misc. 3 .............. 0.0000E+00 0.00 1.0000E-02 0.80 + Misc. 4 .............. 0.0000E+00 0.00 2.0000E-03 0.16 + ---------------------------------------------------------------- + T o t a l s 1.0000E+00 100.00 1.2510E+00 100.00 + + Problem time = 3.5024E-02 + Problem cycle = 576 + Total CPU time = 1 seconds ( 0 hours 0 minutes 1 seconds) + CPU time per zone cycle = 0.000 picoseconds + Clock time per zone cycle= 3806100.500 picoseconds + + Number of CPU's 2 + NLQ used/max 136/ 136 + Start time 08/31/2025 16:54:00 + End time 08/31/2025 16:54:00 + Elapsed time 0 second for 576 cycles using 2 SMP threads + ( 0 hour 0 minute 0 second ) + + N o r m a l t e r m i n a t i o n 08/31/25 16:54:00 diff --git a/test/test_data/sph_models/R9_3_1/d3plot b/test/test_data/sph_models/R9_3_1/d3plot new file mode 100644 index 0000000..7242bee Binary files /dev/null and b/test/test_data/sph_models/R9_3_1/d3plot differ diff --git a/test/test_data/sph_models/R9_3_1/d3plot01 b/test/test_data/sph_models/R9_3_1/d3plot01 new file mode 100644 index 0000000..7682f00 Binary files /dev/null and b/test/test_data/sph_models/R9_3_1/d3plot01 differ diff --git a/test/test_data/sph_models/R9_3_1/d3plot02 b/test/test_data/sph_models/R9_3_1/d3plot02 new file mode 100644 index 0000000..6ec4971 Binary files /dev/null and b/test/test_data/sph_models/R9_3_1/d3plot02 differ diff --git a/test/test_data/sph_models/R9_3_1/sph_test.k b/test/test_data/sph_models/R9_3_1/sph_test.k new file mode 100644 index 0000000..1d809f3 --- /dev/null +++ b/test/test_data/sph_models/R9_3_1/sph_test.k @@ -0,0 +1,143 @@ +*KEYWORD +*TITLE +$# title +SPH Unit Test +*CONTROL_CONTACT +$# slsfac rwpnal islchk shlthk penopt thkchg orien enmass + 0.0 0.0 1 0 1 0 1 0 +$# usrstr usrfrc nsbcs interm xpene ssthk ecdt tiedprj + 0 0 0 0 0.0 0 0 0 +*CONTROL_CPU +$# cputim iglst + 0.0 +*CONTROL_DAMPING +$# nrcyck drtol drfctr drterm tssfdr irelal edttl idrflg + 0 0.0 0.0 0.0 0.0 0 0.0 0 +*CONTROL_ENERGY +$# hgen rwen slnten rylen irgen maten drlen disen + 2 2 2 1 2 1 1 1 +*CONTROL_OUTPUT +$# npopt neecho nrefup iaccop opifs ipnint ikedit iflush + 0 0 0 0 0.0 0 100 5000 +*CONTROL_SPH +$# ncbs boxid dt idim nmneigh form start maxv + 0 0 0.0 2 0 0 0.0 0.0 +*CONTROL_TERMINATION +$# endtim endcyc dtmin endeng endmas nosol + 0.035 0 0.0 0.0 0.0 0 +*CONTROL_TIMESTEP +$# dtinit tssfac isdo tslimt dt2ms lctm erode ms1st + 0.0 0.9 0 0.0 0.0 0 0 0 +*DATABASE_GLSTAT +$# dt binary lcur ioopt +4.00000E-4 2 0 1 +*DATABASE_MATSUM +$# dt binary lcur ioopt +4.00000E-4 2 0 1 +*DATABASE_RCFORC +$# dt binary lcur ioopt +4.00000E-4 2 0 1 +*DATABASE_RWFORC +$# dt binary lcur ioopt +4.00000E-4 2 0 1 +*DATABASE_SLEOUT +$# dt binary lcur ioopt +4.00000E-4 2 0 1 +*DATABASE_BINARY_D3PLOT +$# dt lcdt beam npltc psetid + 0.004 0 0 0 0 +*DATABASE_EXTENT_BINARY +$# neiph neips maxint strflg sigflg epsflg rltflg engflg + 0 0 0 0 1 1 1 1 +$# cmpflg ieverp beamip dcomp shge stssz n3thdt ialemat + 0 0 0 1 1 1 2 1 +*MAT_PLASTIC_KINEMATIC +$# mid ro e pr sigy etan beta + 1 0.00271 68900.0 0.33 117.0 6.8 1.0 +$# src srp fs vp + 0.0 0.0 0.0 0.0 +*MAT_PLASTIC_KINEMATIC +$# mid ro e pr sigy etan beta + 2 0.00271 68900.0 0.33 117.0 6.8 1.0 +$# src srp fs vp + 0.0 0.0 0.0 0.0 +*INITIAL_VELOCITY +$# nsid nsidex boxid irigid icid + 0 0 0 0 0 +$# vx vy vz vxr vyr vzr + -50.0 0.0 0.0 0.0 0.0 0.0 +*PART +$# title + +$# pid secid mid eosid hgid grav adpopt tmid + 101 101 1 0 0 0 0 0 +*SECTION_SPH +$# secid cslh hmin hmax sphini death start sphkern + 101 1.3 0.0 0.0 0.0 0.0 0.0 0 +*RIGIDWALL_PLANAR_ID +$# id title + 1 +$# nsid nsidex boxid offset birth death rwksf + 0 0 0 0.0 0.01.00000E20 1.0 +$# xt yt zt xh yh zh fric wvel + 0.0 0.0 0.0 1.0 0.0 0.0 0.0 0.0 +*SET_NODE_LIST_GENERATE +$# sid da1 da2 da3 da4 solver its - + 101 0.0 0.0 0.0 0.0MECH 1 +$# b1beg b1end b2beg b2end b3beg b3end b4beg b4end + 1000001 1004800 0 0 0 0 0 0 +*NODE +$# nid x y z tc rc + 1001801 0.4998333 -11.04725 0.0 0 0 + 1001802 0.7115 -11.04725 0.0 0 0 + 1001803 0.9231666 -11.04725 0.0 0 0 + 1001804 1.134833 -11.04725 0.0 0 0 + 1001805 1.3465 -11.04725 0.0 0 0 + 1001921 0.4998333 -10.85675 0.0 0 0 + 1001922 0.7115 -10.85675 0.0 0 0 + 1001923 0.9231666 -10.85675 0.0 0 0 + 1001924 1.134833 -10.85675 0.0 0 0 + 1001925 1.3465 -10.85675 0.0 0 0 + 1002041 0.4998333 -10.66625 0.0 0 0 + 1002042 0.7115 -10.66625 0.0 0 0 + 1002043 0.9231666 -10.66625 0.0 0 0 + 1002044 1.134833 -10.66625 0.0 0 0 + 1002045 1.3465 -10.66625 0.0 0 0 + 1002161 0.4998333 -10.47575 0.0 0 0 + 1002162 0.7115 -10.47575 0.0 0 0 + 1002163 0.9231666 -10.47575 0.0 0 0 + 1002164 1.134833 -10.47575 0.0 0 0 + 1002165 1.3465 -10.47575 0.0 0 0 + 1002281 0.4998333 -10.28525 0.0 0 0 + 1002282 0.7115 -10.28525 0.0 0 0 + 1002283 0.9231666 -10.28525 0.0 0 0 + 1002284 1.134833 -10.28525 0.0 0 0 + 1002285 1.3465 -10.28525 0.0 0 0 +*ELEMENT_SPH +$# nid pid mass nend + 1001801 101 1.092736e-04 0 + 1001802 101 1.092736e-04 0 + 1001803 101 1.092736e-04 0 + 1001804 101 1.092736e-04 0 + 1001805 101 1.092735e-04 0 + 1001921 101 1.092741e-04 0 + 1001922 101 1.092741e-04 0 + 1001923 101 1.092741e-04 0 + 1001924 101 1.092741e-04 0 + 1001925 101 1.092741e-04 0 + 1002041 101 1.092741e-04 0 + 1002042 101 1.092741e-04 0 + 1002043 101 1.092741e-04 0 + 1002044 101 1.092741e-04 0 + 1002045 101 1.092741e-04 0 + 1002161 101 1.092741e-04 0 + 1002162 101 1.092741e-04 0 + 1002163 101 1.092741e-04 0 + 1002164 101 1.092741e-04 0 + 1002165 101 1.092741e-04 0 + 1002281 101 1.092736e-04 0 + 1002282 101 1.092736e-04 0 + 1002283 101 1.092736e-04 0 + 1002284 101 1.092736e-04 0 + 1002285 101 1.092735e-04 0 +*END diff --git a/test/test_data/sph_models/R9_3_1_Histvar=2/binout b/test/test_data/sph_models/R9_3_1_Histvar=2/binout new file mode 100644 index 0000000..3fdd026 Binary files /dev/null and b/test/test_data/sph_models/R9_3_1_Histvar=2/binout differ diff --git a/test/test_data/sph_models/R9_3_1_Histvar=2/d3hsp b/test/test_data/sph_models/R9_3_1_Histvar=2/d3hsp new file mode 100644 index 0000000..f2d7e8a --- /dev/null +++ b/test/test_data/sph_models/R9_3_1_Histvar=2/d3hsp @@ -0,0 +1,3170 @@ + Date: 08/31/2025 Time: 16:54:10 + + ___________________________________________________ + | | + | Livermore Software Technology Corporation | + | | + | 7374 Las Positas Road | + | Livermore, CA 94551 | + | Tel: (925) 449-2500 Fax: (925) 449-2507 | + | www.lstc.com | + |_________________________________________________| + | | + | LS-DYNA, A Program for Nonlinear Dynamic | + | Analysis of Structures in Three Dimensions | + | Version : smp s R9.3.1 Date: 09/24/2019 | + | Revision: 140922 Time: 08:43:37 | + | | + | Features enabled in this version: | + | Shared Memory Parallel | + | FFTW (multi-dimensional FFTW Library) | + | Interactive Graphics | + | ANSYS Database format | + | ANSYS License (ANSYS150) | + | MADYMO indirect coupling (7.2 or higher) | + | Big ID option | + | | + | Licensed to: University of Waterloo -- 1081066 | + | Issued by : Pascale.SaneGuttin_08122025 | + | | + | Platform : WINDOWS X64 (SSE2) | + | OS Level : Windows 7/8/10 & Srv 2008/2012 R2 | + | Compiler : Intel Fortran XE 2016 MSVC++ 2010 | + | Hostname : Trauma118 | + | Precision : Single precision (I4R4) | + | SVN Version: 140923 | + | | + | Unauthorized use infringes LSTC copyrights | + |_________________________________________________| + + + Input file: C:\Users\DCHartlen\Documents\Scratchpad\lasso-python\test\test_data\sph_models\R + + The native file format : 32-bit small endian + Memory size from command line: 20000000 + + ******** notice ******** notice ******** notice ******** + * * + * This is the LS-DYNA Finite Element code. * + * * + * Neither LSTC nor the authors assume any responsibility for * + * the validity, accuracy, or applicability of any results * + * obtained from this system. The user must verify his own * + * results. * + * * + * LSTC endeavors to make the LS-DYNA code as complete, * + * accurate and easy to use as possible. * + * Suggestions and comments are welcomed. Please report any * + * errors encountered in either the documentation or results * + * immediately to LSTC through your site focus. * + * * + * Copyright (C) 1990-2018 * + * by Livermore Software Technology Corp. (LSTC) * + * All rights reserved * + * * + ******** notice ******** notice ******** notice ******** + + Beginning of keyword reader 08/31/25 16:54:10 + + + ** ****** ********** ******* + ** ******* ********** ******** + ** ** ** *** + ** ******* ** ** + ** ** ** *** + ********* ******** ** ******** + ********* ****** ** ****** + + +** ****** ******* ** ** * ** ***** +** ******* ******** ** ** ** ** ******* +** ** ** *** ** ** *** ** *** *** +** ** ** *** ** ** *** ** *** *** +** ** ** ** ** **** ** ** ** ********* +** ** ** *** ** ** *** ** ** +** ** ** *** ** ** *** ** ** +********* ******* ******* ** ** ** ** ** +********* ******* ****** ** ** * ** ** + + L I S T O F K E Y W O R D C O U N T S + +total # of *AIRBAG_option.......................... 0 +total # of *AIRBAG_INTERACTION..................... 0 +total # of *AIRBAG_PARTICLE........................ 0 +total # of *AIRBAG_REFERENCE_GEOMETRY.............. 0 +total # of *AIRBAG_SHELL_REFERENCE_GEOMETRY........ 0 +total # of *ALE_AMBIENT_HYDROSTATIC................ 0 +total # of *ALE_COUPLING_NODAL..................... 0 +total # of *ALE_ELEMENT_POROSITY................... 0 +total # of *ALE_FAIL_SWITCH_MMG.................... 0 +total # of *ALE_FRAGMENTATION...................... 0 +total # of *ALE_FSI_SWITCH_MMG..................... 0 +total # of *ALE_REFERENCE_SYSTEM_GROUP............. 0 +total # of *ALE_SWITCH_MMG......................... 0 +total # of *BOUNDARY_ACOUSTIC_COUPLING............. 0 +total # of *BOUNDARY_ACOUSTIC_COUPLING_MISMATCH.... 0 +total # of *BOUNDARY_ACOUSTIC_MAPPING.............. 0 +total # of *BOUNDARY_AERODYNAMIC_HEATING_SEGMENT... 0 +total # of *BOUNDARY_ALE_MIXING_LENGTH............. 0 +total # of *BOUNDARY_AMBIENT....................... 0 +total # of *BOUNDARY_CONVECTION_SEGMENT............ 0 +total # of *BOUNDARY_CONVECTION_SET................ 0 +total # of *BOUNDARY_CYCLIC........................ 0 +total # of *BOUNDARY_DE_NON_REFLECTING............. 0 +total # of *BOUNDARY_ELEMENT_METHOD_FLOW........... 0 +total # of *BOUNDARY_ELEMENT_METHOD_CONTROL........ 0 +total # of *BOUNDARY_ELEMENT_METHOD_NEIGHBOR....... 0 +total # of *BOUNDARY_ELEMENT_METHOD_WAKE........... 0 +total # of *BOUNDARY_ELEMENT_METHOD_SYMMETRY....... 0 +total # of *BOUNDARY_FIRE_SEGMENT.................. 0 +total # of *BOUNDARY_FLUX_SEGMENT.................. 0 +total # of *BOUNDARY_FLUX_SET...................... 0 +total # of *BOUNDARY_NON_REFLECTING................ 0 +total # of *BOUNDARY_MCOL.......................... 0 +total # of *BOUNDARY_PORE_FLUID ................... 0 +total # of *BOUNDARY_PRESCRIBED_MOTION_NODE.+RIGID. 0 +total # of *BOUNDARY_PRESCRIBED_FINAL_GEOMETRY..... 0 +total # of *BOUNDARY_PRESCRIBED_MOTION_SET......... 0 +total # of *BOUNDARY_PRESCRIBED_ORIENTATION........ 0 +total # of *BOUNDARY_PRESCRIBED_ACCELEROMETER...... 0 +total # of *BOUNDARY_PRESSURE_OUTFLOW_SEGMENT...... 0 +total # of *BOUNDARY_PRESSURE_OUTFLOW_SET.......... 0 +total # of *BOUNDARY_PWP_OPTION ................... 0 +total # of *BOUNDARY_RADIATION_SEGMENT.(Type 1).... 0 +total # of *BOUNDARY_RADIATION_SET................. 0 +total # of *BOUNDARY_RADIATION_SEGMENT.(Type 2).... 0 +total # of *BOUNDARY_RADIATION_SET.(Type 2)........ 0 +total # of *BOUNDARY_SLIDING_PLANE................. 0 +total # of *BOUNDARY_SPC_NODE...................... 0 +total # of *BOUNDARY_SPC_SET....................... 0 +total # of *BOUNDARY_SPH_FLOW...................... 0 +total # of *BOUNDARY_SPH_SYMMETRY_PLANE............ 0 +total # of *BOUNDARY_SYMMETRY_FAILURE.............. 0 +total # of *BOUNDARY_TEMPERATURE_NODE.............. 0 +total # of *BOUNDARY_TEMPERATURE_SET............... 0 +total # of *BOUNDARY_THERMAL_BULKFLOW_SET.......... 0 +total # of *BOUNDARY_THERMAL_BULKFLOW_ELEMENT...... 0 +total # of *BOUNDARY_THERMAL_BULKNODE.............. 0 +total # of *BOUNDARY_THERMAL_WELD.................. 0 +total # of *BOUNDARY_USA........................... 0 +total # of *COMPONENT_GEBOD........................ 0 +total # of *COMPONENT_GEBOD_JOINT.................. 0 +total # of *COMPONENT_HYBRIDIII.................... 0 +total # of *COMPONENT_HYBRIDIII_JOINT.............. 0 +total # of *CONSTRAINED_BEAM_IN_SOLID.............. 0 +total # of *CONSTRAINED_BUTT_WELD.................. 0 +total # of *CONSTRAINED_EXTRA_NODES................ 0 +total # of *CONSTRAINED_EXTRA_NODES_SET............ 0 +total # of *CONSTRAINED_GLOBAL..................... 0 +total # of *CONSTRAINED_INTERPOLATION.............. 0 +total # of *CONSTRAINED_JOINT_type................. 0 +total # of *CONSTRAINED_JOINT_COOR_type............ 0 +total # of *CONSTRAINED_JOINT_..._FAILURE.......... 0 +total # of *CONSTRAINED_JOINT_USER_FORCE........... 0 +total # of *CONSTRAINED_JOINT_STIFFNESS_type....... 0 +total # of *CONSTRAINED_LAGRANGE_IN_SOLID.......... 0 +total # of *CONSTRAINED_LINEAR..................... 0 +total # of *CONSTRAINED_LINEAR_LOCAL............... 0 +total # of *CONSTRAINED_NODAL_RIGID_BODY_option.... 0 +total # of *CONSTRAINED_NODE_SET................... 0 +total # of *CONSTRAINED_RIGID_BODIES............... 0 +total # of *CONSTRAINED_RIGID_BODY_STOPPERS........ 0 +total # of *CONSTRAINED_SHELL-SOLID................ 0 +total # of *CONSTRAINED_SPLINE..................... 0 +total # of *CONSTRAINED_SPOTWELD+CONSTRAINED_RIVET. 0 +total # of *CONSTRAINED_SPR2/INTERPOLATION_SPOTWELD 0 +total # of *CONSTRAINED_TIE-BREAK.................. 0 +total # of *CONSTRAINED_TIE-NODE-FAILURE........... 0 +total # of *CONTACT_option......................... 0 +total # of *CONTACT_GEOMETRIC_option............... 0 +total # of *CONTACT_GUIDED_CABLE................... 0 +total # of *CONTACT_1D............................. 0 +total # of *CONTACT_2D............................. 0 +total # of *CONTACT_2D_AUTOMATIC................... 0 +total # of *CONTROL_ACOUSTIC....................... 0 +total # of *CONTROL_ADAPTIVITY..................... 0 +total # of *CONTROL_BULK_VISCOSITY................. 0 +total # of *CONTROL_CHECK.......................... 0 +total # of *CONTROL_CONTACT........................ 1 +total # of *CONTROL_COUPLING....................... 0 +total # of *CONTROL_CPM............................ 0 +total # of *CONTROL_CPU............................ 1 +total # of *CONTROL_DYNAMIC_RELAXATION (DAMPING)... 1 +total # of *CONTROL_EFG............................ 0 +total # of *CONTROL_ENERGY......................... 1 +total # of *CONTROL_EXPLOSIVE_SHADOW............... 0 +total # of *CONTROL_FREQUENCY_RESPONSE_FUNCTION.... 0 +total # of *CONTROL_HOURGLASS...................... 0 +total # of *MPP_option............................. 0 +total # of *CONTROL_MAT............................ 0 +total # of *CONTROL_NONLOCAL....................... 0 +total # of *CONTROL_OUTPUT......................... 1 +total # of *CONTROL_PARALLEL....................... 0 +total # of *CONTROL_REFINE......................... 0 +total # of *CONTROL_SHELL.......................... 0 +total # of *CONTROL_SOLUTION....................... 0 +total # of *CONTROL_SPH............................ 1 +total # of *CONTROL_SUBCYCLE....................... 0 +total # of *CONTROL_TERMINATION.................... 1 +total # of *CONTROL_THERMAL_SOLVER................. 0 +total # of *CONTROL_THERMAL_TIMESTEP............... 0 +total # of *CONTROL_THERMAL_NONLINEAR.............. 0 +total # of *CONTROL_THERMAL_EIGENVALUE............. 0 +total # of *CONTROL_TIMESTEP....................... 1 +total # of *CONTROL_VIBRO_ACOUSTIC................. 0 +total # of *DAMPING_GLOBAL......................... 0 +total # of *DAMPING_PART_MASS...................... 0 +total # of *DAMPING_PART_MASS_SET.................. 0 +total # of *DAMPING_PART_STIFFNESS................. 0 +total # of *DAMPING_PART_STIFFNESS_SET............. 0 +total # of *DAMPING_RELATIVE....................... 0 +total # of *DAMPING_DISCRETE_SPHERE................ 0 +total # of *DATABASE_ABSTAT........................ 0 +total # of *DATABASE_ATDOUT........................ 0 +total # of *DATABASE_AVSFLT........................ 0 +total # of *DATABASE_BNDOUT........................ 0 +total # of *DATABASE_CPM_SENSOR.................... 0 +total # of *DATABASE_CURVOUT....................... 0 +total # of *DATABASE_DISBOUT....................... 0 +total # of *DATABASE_DCFAIL........................ 0 +total # of *DATABASE_DEFGEO........................ 0 +total # of *DATABASE_DEFORC........................ 0 +total # of *DATABASE_ELOUT......................... 0 +total # of *DATABASE_FSI........................... 0 +total # of *DATABASE_FSI_SENSOR.................... 0 +total # of *DATABASE_GCEOUT........................ 0 +total # of *DATABASE_GLSTAT........................ 1 +total # of *DATABASE_H3OUT......................... 0 +total # of *DATABASE_JNTFORC....................... 0 +total # of *DATABASE_MASSOUT....................... 0 +total # of *DATABASE_MATSUM........................ 1 +total # of *DATABASE_MPGS.......... ............... 0 +total # of *DATABASE_MOVIE......................... 0 +total # of *DATABASE_NCFORC........................ 0 +total # of *DATABASE_NODFOR........................ 0 +total # of *DATABASE_NODOUT........................ 0 +total # of *DATABASE_PBSTAT........................ 0 +total # of *DATABASE_PGSTAT........................ 0 +total # of *DATABASE_PG_SENSOR..................... 0 +total # of *DATABASE_PLLYOUT....................... 0 +total # of *DATABASE_PRTUBEOUT..................... 0 +total # of *DATABASE_RBDOUT........................ 0 +total # of *DATABASE_RCFORC_MOMENT................. 0 +total # of *DATABASE_RCFORC........................ 1 +total # of *DATABASE_RWFORC........................ 1 +total # of *DATABASE_SBTOUT........................ 0 +total # of *DATABASE_SECFORC....................... 0 +total # of *DATABASE_SLEOUT........................ 1 +total # of *DATABASE_SPCFORC....................... 0 +total # of *DATABASE_SPH........................... 0 +total # of *DATABASE_TRACER........................ 0 +total # of *DATABASE_TRACER_ALE.................... 0 +total # of *DATABASE_TRACER_GENERATE............... 0 +total # of *DATABASE_SUPERPLASTIC.................. 0 +total # of *DATABASE_SWFORC........................ 0 +total # of *DATABASE_TPRINT........................ 0 +total # of *DATABASE_TRHIST........................ 0 +total # of *DATABASE_BINARY_D3PLOT................. 1 +total # of *DATABASE_BINARY_D3THDT................. 0 +total # of *DATABASE_BINARY_D3PART................. 0 +total # of *DATABASE_BINARY_D3DRFL................. 0 +total # of *DATABASE_BINARY_D3DUMP................. 0 +total # of *DATABASE_BINARY_RUNRSF................. 0 +total # of *DATABASE_BINARY_INTFOR................. 0 +total # of *DATABASE_BINARY_FSIFOR................. 0 +total # of *DATABASE_BINARY_CPMFOR................. 0 +total # of *DATABASE_BINARY_PGFOR.................. 0 +total # of *DATABASE_BINARY_DEMFOR................. 0 +total # of *DATABASE_BINARY_BLSTFOR................ 0 +total # of *DATABASE_CROSS_SECTION_option.......... 0 +total # of *DATABASE_EXTENT_AVS.................... 0 +total # of *DATABASE_EXTENT_MOVIE ................. 0 +total # of *DATABASE_EXTENT_MPGS................... 0 +total # of *DATABASE_EXTENT_BINARY................. 1 +total # of *DATABASE_EXTENT_D3PART................. 0 +total # of *DATABASE_EXTENT_INTFOR................. 0 +total # of *DATABASE_FREQUENCY_BINARY_D3ACS........ 0 +total # of *DATABASE_FREQUENCY_BINARY_D3ATV........ 0 +total # of *DATABASE_FREQUENCY_BINARY_D3FTG........ 0 +total # of *DATABASE_FREQUENCY_BINARY_D3PSD........ 0 +total # of *DATABASE_FREQUENCY_BINARY_D3RMS........ 0 +total # of *DATABASE_FREQUENCY_BINARY_D3SPCM....... 0 +total # of *DATABASE_FREQUENCY_BINARY_D3SSD........ 0 +total # of *DATABASE_HISTORY_NODE_option........... 0 +total # of *DATABASE_HISTORY_SOLID_option.......... 0 +total # of *DATABASE_HISTORY_BEAM_option........... 0 +total # of *DATABASE_HISTORY_SHELL_option.......... 0 +total # of *DATABASE_HISTORY_SPH_option............ 0 +total # of *DATABASE_HISTORY_TSHELL_option......... 0 +total # of *DATABASE_NODAL_FORCE_GROUP............. 0 +total # of *DATABASE_POWER_SPECTRAL_DENSITY........ 0 +total # of *DATABASE_POWER_SPECTRAL_DENSITY_FREQUE. 0 +total # of *DATABASE_PWP_FLOW ..................... 0 +total # of *DEFINE_ADAPTIVE_SOLID_TO_DES........... 0 +total # of *DEFINE_ADAPTIVE_SOLID_TO_HBOND......... 0 +total # of *DEFINE_ADAPTIVE_SOLID_TO_SPH........... 0 +total # of *DEFINE_BEAM_SOLID_COUPLING............. 0 +total # of *DEFINE_BOX............................. 0 +total # of *DEFINE_CONSTRUCTION_STAGES ............ 0 +total # of *DEFINE_CONTACT_EXCLUSION............... 0 +total # of *DEFINE_COORDINATE_option............... 0 +total # of *DEFINE_CPM_BAG_INTERACTION............. 0 +total # of *DEFINE_CPM_CHAMBER..................... 0 +total # of *DEFINE_CPM_GAS_PROPERTIES.............. 0 +total # of *DEFINE_CPM_VENT........................ 0 +total # of *DEFINE_CURVE........................... 0 +total # of *DEFINE_CURVE_DUPLICATE................. 0 +total # of *DEFINE_CURVE_ENTITY.................... 0 +total # of *DEFINE_CURVE_FUNCTION.................. 0 +total # of *DEFINE_DE_ACTIVE_REGION................ 0 +total # of *DEFINE_DE_INJECTION.................... 0 +total # of *DEFINE_DE_TO_SURFACE_COUPLING.......... 0 +total # of *DEFINE_DE_TO_SURFACE_EROSION........... 0 +total # of *DEFINE_DE_TO_SURFACE_TIED.............. 0 +total # of *DEFINE_DE_TO_BEAM_COUPLING............. 0 +total # 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of *DEFINE_ELEMENT_DEATH_SOLID............. 0 +total # of *DEFINE_ELEMENT_DEATH_BEAM.............. 0 +total # of *DEFINE_ELEMENT_DEATH_SHELL............. 0 +total # of *DEFINE_ELEMENT_DEATH_TSHELL............ 0 +total # of *DEFINE_PG_BAG_INTERACTION.............. 0 +total # of *DEFINE_PG_CHAMBER...................... 0 +total # of *DEFINE_PG_GAS_PROPERTIES............... 0 +total # of *DEFINE_PG_VENT......................... 0 +total # of *DEFINE_SHELL_ELEMENT_DEATH_THICK....... 0 +total # of *DEFINE_SPH_TO_SPH_COUPLING............. 0 +total # of *DEFINE_SPH_DE_COUPLING................. 0 +total # of *DEFINE_SPOTWELD_RUPTURE_STRESS......... 0 +total # of *DEFINE_SPOTWELD_RUPTURE_PARAMETER...... 0 +total # of *DEFINE_STAGED_CONSTRUCTION_PART ....... 0 +total # of *DATABASE_BKSTAT........................ 0 +total # of *DEFORMABLE_TO_RIGID.................... 0 +total # of *DEFORMABLE_TO_RIGID_AUTOMATIC.......... 0 +total # of *DEFORMABLE_TO_RIGID_INERTIA............ 0 +total # of *ELEMENT_BEAM_option.................... 0 +total # of *ELEMENT_BEAM_PULLEY.................... 0 +total # of *ELEMENT_BEAM_SOURCE.................... 0 +total # of *ELEMENT_DISCRETE....................... 0 +total # of *ELEMENT_MASS........................... 0 +total # of *ELEMENT_MASS_PART...................... 0 +total # of *ELEMENT_SEATBELT....................... 0 +total # of *ELEMENT_SEATBELT_ACCELEROMETER......... 0 +total # of *ELEMENT_SEATBELT_PRETENSIONER.......... 0 +total # of *ELEMENT_SEATBELT_RETRACTOR............. 0 +total # of *ELEMENT_SEATBELT_SENSOR................ 0 +total # of *ELEMENT_SEATBELT_SLIPRING.............. 0 +total # of *ELEMENT_SHELL_option................... 0 +total # of *ELEMENT_SHELL_NURBS_PATCH.............. 0 +total # of *ELEMENT_SOLID.......................... 0 +total # of *ELEMENT_SOLID_NURBS_PATCH.............. 0 +total # of *ELEMENT_SPH............................ 25 +total # of *ELEMENT_TSHELL_option.................. 0 +total # of *ELEMENT_INERTIA........................ 0 +total # of *MODULE_LOAD............................ 0 +total # of *MODULE_USE............................. 0 +total # of *SENSOR_SWITCH_SHELL_TO_VENT............ 0 +total # of *SENSOR_CPM_AIRBAG...................... 0 +total # of *PG_SWITCH_SHELL_TO_VENT................ 0 +total # of *EOS_option............................. 0 +total # of *FATIGUE................................ 0 +total # of *FREQUENCY_DOMAIN_ACCELERATION_UNIT..... 0 +total # of *FREQUENCY_DOMAIN_ACOUSTIC_BEM.......... 0 +total # of *FREQUENCY_DOMAIN_ACOUSTIC_FEM.......... 0 +total # of *FREQUENCY_DOMAIN_ACOUSTIC_FRINGE_PLOT.. 0 +total # of *FREQUENCY_DOMAIN_ACOUSTIC_INCIDENT_WAVE 0 +total # of *FREQUENCY_DOMAIN_ACOUSTIC_SOUND_SPEED.. 0 +total # of *FREQUENCY_DOMAIN_FRF................... 0 +total # of *FREQUENCY_DOMAIN_MODE.................. 0 +total # of *FREQUENCY_DOMAIN_PATH.................. 0 +total # of *FREQUENCY_DOMAIN_RANDOM_VIBRATION...... 0 +total # of *FREQUENCY_DOMAIN_RESPONSE_SPECTRUM..... 0 +total # of *FREQUENCY_DOMAIN_SEA................... 0 +total # of *FREQUENCY_DOMAIN_SEA_CONNECTION........ 0 +total # of *FREQUENCY_DOMAIN_SEA_INPUTPOWER........ 0 +total # of *FREQUENCY_DOMAIN_SEA_SUBSYSTEM......... 0 +total # of *FREQUENCY_DOMAIN_SSD................... 0 +total # of *FV_MESHES.............................. 0 +total # of *FV_FSI................................. 0 +total # of *HOURGLASS.............................. 0 +total # of *INITIAL_AIRBAG_PARTICLE_POSITION....... 0 +total # of *INITIAL_AXIAL_FORCE_BEAM............... 0 +total # of *INITIAL_DETONATION..................... 0 +total # of *INITIAL_FIELD_SOLID.................... 0 +total # of *INITIAL_IMPULSE_MINE................... 0 +total # of *INITIAL_MOMENTUM....................... 0 +total # of *INITIAL_PWP_DEPTH ..................... 0 +total # of *INITIAL_STRAIN_SHELL................... 0 +total # of *INITIAL_STRAIN_SHELL_SET............... 0 +total # of *INITIAL_STRAIN_SOLID................... 0 +total # of *INITIAL_STRAIN_TSHELL.................. 0 +total # of *INITIAL_STRESS_BEAM.................... 0 +total # of *INITIAL_STRESS_DEPTH .................. 0 +total # of *INITIAL_STRESS_SECTION................. 0 +total # of *INITIAL_STRESS_SHELL................... 0 +total # of *INITIAL_STRESS_SHELL_SET............... 0 +total # of *INITIAL_STRESS_SOLID................... 0 +total # of *INITIAL_STRESS_SPH..................... 0 +total # of *INITIAL_STRESS_TSHELL.................. 0 +total # of *INITIAL_TEMPERATURE_SET................ 0 +total # of *INITIAL_TEMPERATURE_NODE............... 0 +total # of *INITIAL_VELOCITY....................... 1 +total # of *INITIAL_VELOCITY_NODE.................. 0 +total # of *INITIAL_VELOCITY_RIGID_BODY............ 0 +total # of *INITIAL_VOID_PART...................... 0 +total # of *INITIAL_VOID_SET....................... 0 +total # of *INITIAL_VOLUME_FRACTION_GEOMETRY....... 0 +total # of *INITIAL_HYDROSTATIC_ALE................ 0 +total # of *INITIAL_EOS_ALE........................ 0 +total # of *INITIAL_VAPOR_PART..................... 0 +total # of *INITIAL_ALE_MAPPING.................... 0 +total # of *INITIAL_LAG_MAPPING.................... 0 +total # of *INTEGRATION_BEAM....................... 0 +total # of *INTEGRATION_SHELL...................... 0 +total # of *INTERFACE_COMPONENT_option............. 0 +total # of *INTERFACE_DE_HBOND..................... 0 +total # of *INTERFACE_LINKING_DISCRETE_NODE........ 0 +total # of *INTERFACE_LINKING_DISCRETE_NODE_SET.... 0 +total # of *INTERFACE_LINKING_EDGE................. 0 +total # of *INTERFACE_LINKING_SEGMENT.............. 0 +total # of *INTERFACE_SPRINGBACK................... 0 +total # of *INTERFACE_SSI_AUXILIARY_FREE_FIELD..... 0 +total # of *INTERFACE_SSI_STATIC................... 0 +total # of *INTERFACE_SSI.......................... 0 +total # of *LOAD_ALE_CONVECTION ................... 0 +total # of *LOAD_AIR_PRESSURE...................... 0 +total # of *LOAD_BEAM.............................. 0 +total # of *LOAD_BEAM_SET.......................... 0 +total # of *LOAD_BODY_GENERALIZED.................. 0 +total # of *LOAD_BODY_POROUS....................... 0 +total # of *LOAD_BODY_RX........................... 0 +total # of *LOAD_BODY_RY........................... 0 +total # of *LOAD_BODY_RZ........................... 0 +total # of *LOAD_BODY_X............................ 0 +total # of *LOAD_BODY_Y............................ 0 +total # of *LOAD_BODY_Z............................ 0 +total # of *LOAD_BRODE............................. 0 +total # of *LOAD_BLAST............................. 0 +total # of *LOAD_BLAST_ENHANCED.................... 0 +total # of *LOAD_BLAST_SEGMENT..................... 0 +total # of *LOAD_BLAST_SEGMENT_SET................. 0 +total # of *LOAD_DENSITY_DEPTH .................... 0 +total # of *LOAD_GRAVITY_PART ..................... 0 +total # of *LOAD_HEAT_CONTROLLER .................. 0 +total # of *LOAD_HEAT_GENERATION_SET............... 0 +total # of *LOAD_HEAT_GENERATION_SOLID............. 0 +total # of *LOAD_HEAT_GENERATION_SET_SHELL......... 0 +total # of *LOAD_HEAT_GENERATION_SHELL............. 0 +total # of *LOAD_NODE.............................. 0 +total # of *LOAD_NODE_SET.......................... 0 +total # of *LOAD_NSG............................... 0 +total # of *LOAD_REMOVE_PART ...................... 0 +total # of *LOAD_SEGMENT........................... 0 +total # of *LOAD_SEGMENT_FSILNK.................... 0 +total # of *LOAD_SEGMENT_NONUNIFORM................ 0 +total # of *LOAD_SEGMENT_SET....................... 0 +total # of *LOAD_SEGMENT_SET_NONUNIFORM............ 0 +total # of *LOAD_SEISMIC_SSI_NODE.................. 0 +total # of *LOAD_SEISMIC_SSI_SET................... 0 +total # of *LOAD_SEISMIC_SSI_POINT................. 0 +total # of *LOAD_SEISMIC_SSI_DECONV................ 0 +total # of *LOAD_SHELL............................. 0 +total # of *LOAD_SHELL_SET......................... 0 +total # of *LOAD_STIFFEN_PART ..................... 0 +total # of *LOAD_SUPERPLASTIC_FORMING.............. 0 +total # of *LOAD_SURFACE_STRESS.................... 0 +total # of *LOAD_THERMAL_option_ELEMENT............ 0 +total # of *LOAD_THERMAL_option_NODE............... 0 +total # of *LOAD_THERMAL_option.................... 0 +total # of *LOAD_THERMAL_LOAD_CURVE................ 0 +total # of *LOAD_THERMAL_TOPAZ .................... 0 +total # of *LOAD_THERMAL_VARIABLE_SHELL_option..... 0 +total # of *LOAD_THERMAL_VARIABLE_BEAM _option..... 0 +total # of *LOAD_VIBRO_ACOUSTIC.................... 0 +total # of *LOAD_VOLUME_LOSS ...................... 0 +total # of *LSO_DOMAIN............................. 0 +total # of *LSO_POINT_SET.......................... 0 +total # of *LSO_REGION............................. 0 +total # of *LSO_TIME_SEQUENCE...................... 0 +total # of *LSO_VARIABLE_GROUP..................... 0 +total # of *MAT_option............................. 2 +total # of *MAT_THERMAL_option..................... 0 +total # of *MAT_NONLOCAL........................... 0 +total # of *NODE................................... 25 +total # of *NODE_MERGE............................. 0 +total # of *NODE_MERGE_TOLERANCE................... 0 +total # of *PART_option card....................... 1 +total # of *PART_ANNEAL_option..................... 0 +total # of *PARTICLE_BLAST......................... 0 +total # of *PARTICLE_GENERAL....................... 0 +total # of *RIGIDWALL_option....................... 1 +total # of *SECTION_option......................... 1 +total # of *SET_2D_SEGMENT......................... 0 +total # of *SET_BEAM............................... 0 +total # of *SET_BOX ............................... 0 +total # of *SET_DISCRETE........................... 0 +total # of *SET_MODE............................... 0 +total # of *SET_NODE_option........................ 1 +total # of *SET_PART............................... 0 +total # of *SET_POINT.............................. 0 +total # of *SET_SEGMENT............................ 0 +total # of *SET_SHELL_option....................... 0 +total # of *SET_SOLID.............................. 0 +total # of *SET_TSHELL............................. 0 +total # of *TERMINATION_BODY....................... 0 +total # of *TERMINATION_DELETED_SHELLS............. 0 +total # of *TERMINATION_DELETED_SOLIDS............. 0 +total # of *TERMINATION_NODE....................... 0 +total # of *TERMINATION_CONTACT.................... 0 +total # of *TITLE.................................. 1 +total # of *USER_INTERFACE_CONTROL................. 0 +total # of *USER_INTERFACE_FRICTION................ 0 +total # of *USER_INTERFACE_FORCES.................. 0 +total # of *USER_INTERFACE_CONDUCTIVITY............ 0 +total # of *USER_LOAD.............................. 0 +total # of *USER_MATERIAL_VENDOR................... 0 +total # of *USER_MATERIAL_LICENSE.................. 0 +total # of *USER_NONLOCAL_SEARCH................... 0 +total # of *CHANGE_BOUNDARY_CONDITIONS............. 0 +total # of *CHANGE_CONTACT_SMALL_PENETRATION....... 0 +total # of *CHANGE_RIGID_BODY_CONSTRAINTS.......... 0 +total # of *CHANGE_RIGID_BODY_INERTIA.............. 0 +total # of *CHANGE_THERMAL_PARAMETERS.............. 0 +total # of *CHANGE_VELOCITY_ZERO................... 0 +total # of *CHANGE_VELOCITY_RIGID_BODY............. 0 +total # of *DELETE_ALECPL.......................... 0 +total # of *DELETE_CONTACT......................... 0 +total # of *DELETE_CONTACT_2DAUTO.................. 0 +total # of *DELETE_FSI............................. 0 +total # of *DELETE_ENTITY.......................... 0 +total # of *DELETE_ELEMENT_SOLID................... 0 +total # of *DELETE_ELEMENT_BEAM.................... 0 +total # of *DELETE_ELEMENT_SHELL................... 0 +total # of *DELETE_ELEMENT_TSHELL.................. 0 +total # of *DELETE_PART............................ 0 +total # of *RIGID_DEFORMABLE_CONTROL............... 0 +total # of *RIGID_DEFORMABLE_D2R................... 0 +total # of *RIGID_DEFORMABLE_R2D................... 0 +total # of *STRESS_INITIALIZATION.................. 0 + + Memory required to process keyword : 364548 + + LS-DYNA will perform a structural only analysis + + + + SPH Unit Test + code input version =1993 + formats =mlarg + + + + c o n t r o l i n f o r m a t i o n + + CONTROL CARD 1. Model Size-General + + number of materials or property sets........... 2 + + number of nodal+scalar points.................. 29 + + number of merged nodal points.................. 0 + + number of solid elements....................... 0 + + number of beam elements........................ 0 + + number of shell elements....................... 1 + + number of thick shell elements................. 0 + + number of user defined material subroutines.... 0 + + number of material groups tied to solids....... 0 + + number of tracer particles..................... 0 + + number of super elements....................... 0 + + number of solid tetrahedrons with 10 nodes..... 0 + + number of quadratic shell elements............. 0 + + number of shells with extra degrees of freedom. 0 + + number of solids with extra degrees of freedom. 0 + + number of user defined sections................ 0 + + activate sensor capability (inactive=0)........ 0 + + number of user defined solid element types..... 0 + + number of solid interpolation elements......... 0 + + number of user defined shell element types..... 0 + + number of shell interpolation elements......... 0 + + number of constrained nodes for interpolation.. 0 + + consistent mass matrix for user-def elements... 0 + + number of shell nurbs patches.................. 0 + + number of solid nurbs patches.................. 0 + + + CONTROL CARD 2. Model Size-Boundary Conditions + + number of spc nodes............................ 0 + + number of spc coordinates...................... 0 + + number of velocity cards....................... 0 + + number of non-reflecting boundary segments..... 0 + + number of b. c. cards.......................... 0 + + number of b. c. cards with failure............. 0 + + number of box definition for b. c. card........ 0 + + number of nodes/interface for cyclic symmetry.. 0 + + number of rigid bodies with attachment nodes... 0 + + + CONTROL CARD 3. Model Size-Loading + + number of load curves.......................... 0 + + number of nodes for load curve functions....... 0 + + number of curves for entities.................. 0 + + number of concentrated load cards.............. 0 + + number of pressure load cards.................. 0 + + number of nonuniform pressure loads-4 nodes.... 0 + + number of nonuniform pressure loads-6 nodes.... 0 + + number of nonuniform pressure loads-8 nodes.... 0 + + number of generalized body force sets.......... 0 + + number of beam pressure card definitions....... 0 + + number of detonation points.................... 0 + + number of zones for momentum deposition........ 0 + + number of points in density vs. depth curve.... 0 + + number of outflow boundary segments............ 0 + + number of load curve feedback sets............. 0 + + number of pressure load sets with masks........ 0 + + number of spray systems ....................... 0 + + number of initial stress by cross-sections sets 0 + + number of pressure load sets................... 0 + + number of ground motion definitions............ 0 + + number of ground motions specified at nodes.... 0 + + number of ground motions specified at points... 0 + + number of ground motions specified in bin file. 0 + + number of segsets with specified ground motion. 0 + + number of soil-structure interfaces for output. 0 + + number of aero-acoustic load cards............. 0 + + number of delayed curve........................ 0 + + number of pid controller....................... 0 + + + CONTROL CARD 4. Model Size-Constraints and Contact + + number of rigid wall definitions............... 1 + + number of number of contact definitions........ 0 + + number of number of guided cable contacts...... 0 + + number of shell-solid interfaces............... 0 + + number of tie-breaking slide lines............. 0 + + number of blocks of tied nodes with fracture .. 0 + + number of tied nodal pairs for linking......... 0 + + number of constraint cards..................... 0 + + number of linear constraint equations.......... 0 + + number of 1d slidelines........................ 0 + + number of adaptive constraints................. 0 + + number of ALE smoothing constraints............ 0 + + number of 2d slidelines........................ 0 + + number of 2d automatic contacts................ 0 + + number of part IDs for interior contact........ 0 + + number of beam release sets.................... 0 + + max. number of nodes in any beam release set... 0 + + + CONTROL CARD 5. Model Size-Rigid Body Parameters + + number of rigid body constraint sets........... 0 + + number of rigid body merge cards............... 0 + + number of joint constraints.................... 0 + + number of joint failure definitions............ 0 + + number of joint user force definitions......... 0 + + number of extra node blocks.................... 0 + + number of rigid body inertia definitions....... 0 + + number of geometric contact entities........... 0 + + number of joint stiffness definitions.......... 0 + + number of rigid body stoppers.................. 0 + + joint formulation for rigid bodies............. 0 + eq.0: penalty + eq.1: lagrange multiplier + + generalized stiffness angle update ............ 0 + eq.0: incremental formulation + eq.1: total formulation + + number of flexible bodies...................... 0 + lt.0: stress recovery active + + number of relative damping definitions......... 0 + + flag for reading rigid surface contact input... 0 + eq.0: no rigid surface contact + eq.1: read rigid surface input + + number of Hybrid III dummies .................. 0 + + number of Hybrid III joint modifications ...... 0 + + number of interpolation constraints ........... 0 + + flag for metalforming fast rigid bodies........ 0 + eq.0: full rigid body treatment + eq.1: fast rigid body treatment + + number of prescribed rigid body orientations 0 + + + CONTROL CARD 6. Model Size-Discrete Elements & Seat Belts + + number of spring-damper material types......... 0 + + number of local coordinate systems............. 0 + + number of discrete springs and dampers......... 0 + + number of lumped masses........................ 0 + + number of parts with added mass................ 0 + + number of nodes with mass matrix............... 0 + + number of seat belt materials.................. 0 + + number of seat belt elements................... 0 + + number of 2d seat belt elements................ 0 + + number of slip rings........................... 0 + + number of retractors........................... 0 + + number of sensors.............................. 0 + + number of pretensioners........................ 0 + + number of accelerometers....................... 0 + + number of discrete rotary inertias............. 0 + + number of SPH particles........................ 25 + + number of groups of SPH particles.............. 1 + + + CONTROL CARD 7. Model Size-Output Control + + number of cross section definitions............ 0 + + number of nodal groups for resultant forces.... 0 + + number of interface segments for linking....... 0 + + max. number of segments defining rigid wall.... 0 + + number of power spectrum density databases..... 0 + + + CONTROL CARD 8. Computation Options-Termination + + termination time............................... 0.3500E-01 + + termination cycle.............................. 0 + + reduction factor for minimum time step (TSMIN). 0.0000E+00 + + percent change in energy ratio for termination. 0.0000E+00 + + percent change in total mass for termination... 0.0000E+00 + + number of nodes for displacement termination... 0 + + number of rigid bodies for disp. termination... 0 + + number of conditions for contact termination... 0 + + number of conditions for ldcurve termination... 0 + + ID of sensor_switch for sensor termination... 0 + + + CONTROL CARD 8a. Computation Options-Start + + start time..................................... 0.0000E+00 + + + CONTROL CARD 9. Computation Options-Time Step Size + + initial time step size......................... 0.0000E+00 + + time step scale factor......................... 0.9000E+00 + + time step size calculation for 4-node shells... 0 + eq.0: based on longest element side + eq.1: based on longest element diagonal + eq.2: based on bar wave speed max side + eq.3: based on optimal time step size + estimator + + shell element minimum time step assignment..... 0.0000E+00 + + time step size for mass scaled solution, dt2ms. 0.0000E+00 + lt.0: minimum time step size permitted + + load curve number for maximum timestep......... 0 + + erosion flag for solid and thick shells........ 0 + eq.0: no + eq.1: yes + + option part set ID for eroding solids.......... 0 + eq.0: all solids are checked if eros_flag=1 + gt.0: solids within part set are checked + + limit mass scaling to the first time step...... 0 + eq.0: no + eq.1: yes + + scale factor on initial dt to determine dt2ms.. 0.0000E+00 + + load curve ID for mass scaling ................ 0 + + flag for selective mass scaling................ 0 + eq.0: off + eq.1: on + eq.2: on for part subset + + consistent constraint logical switch........... F + + flag for part set for erosion ................. 0 + eq.0: no + eq.1: yes + + flag for accounting for rotations in sms....... 0.0000E+00 + eq.0.: off (default) + gt.0.: on + implicit_explicit_hybrid part set.............. 0 + + + + CONTROL CARD 10. Computation Options-Loading + + x-ground acceleration.......................... 0 + eq.0: no + eq.1: yes + + y-ground acceleration.......................... 0 + eq.0: no + eq.1: yes + + z-ground acceleration.......................... 0 + eq.0: no + eq.1: yes + + x-angular velocity............................. 0 + eq.0: no + eq.1: yes + + y-angular velocity............................. 0 + eq.0: no + eq.1: yes + + z-angular velocity............................. 0 + eq.0: no + eq.1: yes + + number of materials receiving body forces...... 0 + eq.0: all + eq.n: subset of n materials + + flag for user defined loading subroutine....... 0 + lt.0: magnitude=# of input constants + eq.0: no + eq.1: yes, but no additional input + + explosive initiation option.................... 0 + eq.0: lighting times based on distance + eq.1: lighting times include geometric + effects for wave shapers, etc. + + sub-sea structural analysis option............. 0 + eq.0: off + eq.1: on with 1 point integration + eq.4: on with 4 point integration + contact pressure calculation option............ 0 + eq.0: off (default) + eq.1: on + # of user defined loading set.................. 0 + + + CONTROL CARD 11. Computation Options-Input Control + + initialization of velocities................... 1 + eq.0: velocities are initialized to zero + eq.1: initial velocities are read in + eq.2: all velocities have same input value + eq.3: as 2 but exempted nodes are defined + eq.4: box option + eq.5: generation with arbitrary numbering + eq.6: rotational and translational via IDs + eq.7: option 6 but applied during calculation + + time to apply initial velocites (option 7)..... 0.0000E+00 + + arbitrary node and element numbering flag ..... 1 + + constitute, eqs-of-state, cross-section option. 0 + eq.0: off + eq.1: separate input is required for each + + specified nodal coordinate format.............. e20.0 + + flag for thermodynamic control volume input.... 0 + + overpressure option (eq.0 no, eq.1 yes)....... 0 + + number of part (de) activation sensors......... 0 + + number of rigid body initial velocity sets..... 0 + + jacobian tolerance for type 16 tetrahedron..... 0.0000E+00 + + flag to check for NaN in force/moment arrays... 0 + + load curve accuracy flag....................... 0 + + cycles between evaluation of curve functions... 1 + + + CONTROL CARD 12. Computation Options-Elements + + warped shell angle in deg. for error message... 0.2000E+02 + + iterative plane stress plasticity for shells... 1 + eq.1: vectorized with three iterates + eq.2: nonvectorized iterations as needed + eq.3: noniterative radial return + + Calculation option for F for solid elements.... 0 + eq.0: default, explicit=1, implicit=2 + eq.1: integrate incrementally + eq.2: compute directly + + flag for automatic sorting .................... 0 + eq. 1: on for triangular shells + eq.11: on for triangular shells and solids + eq.10: on for solids (tets and pentas) + + formulation for sorted degenerate tet/pent..... 0 + eq. 0: no sorting required(default) + eq. 1: type 10 tet & type 15 pent + eq. 2: type 10 tet, 1pt pent to type 15 pent, + fully intg pent to type 115 pent + eq. 3: same as 1 & switch elem in messag file + eq. 4: same as 2 & switch elem in messag file + + formulation for sorted trianglar shells ....... 0 + eq. 0: no sorting required(default) + eq. 1: C0 triangle, type 4 + eq. 2: DKT triangle type 17 + + hughes-liu normal computation options.......... -1 + eq.-2: unique nodal fibers + eq.-1: compute normals each cycle + eq.0 : default set to -1 + eq.1 : compute on restart + eq.n : compute on restart + each nth cycle + + thickness modification for membrane strains.... 0 + eq.0: no + eq.1: 4-node shell only + eq.2: 8-node thick shell types 1 & 2 + eq.3: update both 4 & 8 node thickness + eq.4: same as option 1 but the elastic + strains are neglected + + shell part set ID (pids) for thickness update. 0 + lt.0: exclude pids if update option is active + eq.0: include all if update option is active + gt.0: include pids if update option is active + + shell part set ID where type 4 update applies 0 + + shell formulation basis........................ 2 + eq. 1: hughes-liu + eq. 2: belytschko-tsay + eq. 3: bciz + eq. 4: c0-triangular element + eq. 5: membrane element + eq. 6: s/r hughes-liu + eq. 7: s/r co-rotational hughes-liu + eq. 8: belytschko-leviathan shell + eq. 9: fully integrated membrane + eq. 10: belytschko-wong-chiang + eq. 11: fast hughes-liu + eq. 12: 2d plane stress + eq. 13: 2d plane strain + eq. 14: 2d axisymmetric (area wgt) + eq. 15: 2d axisymmetric (volume wgt) + eq. 16: fully integrated element + eq. 17: dkt element + eq. 18: dkq-dkt linear element + eq. 20: assumed strain linear element + eq. 21: assumed strain linear element(5DOF) + eq. 22: linear shear panel element(3DOF) + eq. 23: 8-node quadratic quadrilateral shell + eq. 24: 6-node quadratic triangular shell + eq. 25: belytschko-tsay with + thickness stretch + eq. 26: fully integrated element with + thickness stretch + eq. 27: c0-triangular element with + thickness stretch + eq. 29: cohesive element + eq. 31: 2-d 1-pt. eulerian n-s + eq. 32: 2-d 4-pt. eulerian n-s + eq. 33: 2-d cvfem eulerian n-s + eq. 41: meshfree shell local projection + eq. 42: meshfree shell global projection + eq. 43: meshfree plane strain + eq. 44: meshfree axisymmetric solid + eq. 46: cohesive element + eq. 47: cohesive with shell offsets + eq. 98: interpolation shell element + eq. 99: elastic vibration element + eq. 201: isogeometric nurbs element + ge.1000: user defined (generalized) shell + + # of user specified beam integration rules..... 0 + + max number of integration points reqd (beams) . 0 + + # of user specified shell integration rules.... 0 + + max number of integration points reqd (shells). 0 + + warping stiffness for Belytschko-Tsay shells... 2 + eq.1: Belytschko-Wong-Chiang modification + eq.2: original Belytschko-Tsay + + projection method for warping stiffness........ 0 + eq.0: drill + eq.1: full + + reference configuration ....................... 0 + eq. 0: no + eq. 1: yes, active for all airbags + eq. 2: yes, reference geometry Dt + eq.10: yes, active for foam elements + eq.11: options 1 and 10 active + eq.12: options 2 and 10 active + + contact reference configuration ............... 0 + eq. 0: no + eq. n: n number of reference nodes + + invariant node numbering ...................... 0 + eq.-4 on for both shell and solid elements + except triangular shells + eq.-2 on for shell elements except + triangular shells + eq. 1 off (default) + eq. 2 on for all shell elements + eq. 3 on for solid elements with + anisotropic material + eq. 4 on for all shell elements and solid + elements with anisotropic material + + activation time for reference geometry ........ 0.0000E+00 + + scale factor for shell rotary mass ............ 0.1000E+01 + + integration for shell through thickness ....... 0 + eq.0: Gauss + eq.1: Lobatto + + use laminated shell theory for material ....... 0 + types 22, 54, 55, and 76: + eq.0: no + eq.1: yes for thin shell material types + 22, 54, 55, or 76 + eq.3: yes for all thin shell anisotropic + materials or mixed materials + eq.4: yes for all thick shell anisotropic + materials or mixed materials + eq.5: yes for thick and thin shells + + number of annealed parts ....................... 0 + + number of new part IDs for COMPOSITE option..... 0 + + flag for shell offset vectors ................. 0 + eq. 0: off + eq. 1: on + + flag for offset shell contact surface ......... 0 + eq. 0: off + eq. 1: on + eq. 2: on, but use contact thickness + + number of point constraints between shells .... 0 + + flag for input of beam orientation vectors .... 0 + + flag for input of beam offset vectors ......... 0 + + flag for input of beam warpage scalar nodes.... 0 + + flag for 12-node shell for thermal ............ 0 + + local shell coordinate system in type 6 shell.. 1 + eq. 0: uniform local coordinate system + eq. 1: variable local coordinate system + + Jacobian check on 1 point shells............... 0 + eq. 0: off + eq. 1: on -delete distorted element + eq. 2: on -terminate + eq. n: terminate when n elements are deleted + + Jacobian check on 4 point shells............... 0 + eq. 0: off + eq. 1: on -delete distorted element + eq. 2: on -terminate + eq. n: terminate when n elements are deleted + + part set ID for Jacobian checks................ 0 + + keep contact segment related to failed shell... 0 + eq. 0: off + eq. 1: on + delete free-free shells in Jacobian checks..... 0 + eq. 0: off + eq. 1: on + + part set ID for drill constraint force ........ 0 + scale factor for drill constraint force ....... 0.0000E+00 + + w mode deletion angle in degrees .............. 0.0000E+00 + + stretch ratio deletion (l/l0) ................. 0.0000E+00 + + flag for error exit in case of unwanted + interpolation of inital stresses .............. 0 + + number of shell part IDs for termination...... 0 + eq. 0: inactive + gt. 0: # part IDs where # failed are defined + + number of solid part IDs for termination...... 0 + eq. 0: inactive + gt. 0: # part IDs where # failed are defined + + integration rule for quadratic tetrahedrons.... 4 + eq. 4: 4 point integration formula + eq. 5: 5 point integration formula + + integration rule for quadratic shells.......... 2 + eq. 2: 2 point integration in plane + eq. 3: 3 point integration in plane + + stress output for solid element spotwelds...... 0 + eq. 1: global (default) + eq. 2: local + + # of solid elements with death times........... 0 + + # of beam elements with death times........... 0 + + # of shell elements with death times........... 0 + + # of thick shell elements with death times..... 0 + + # of box definitions for element deletion...... 0 + + # of parts to be annealed...................... 0 + + flag for input of elbow extra scalar nodes..... 0 + + flag for material stochastic variations........ 0 + + number of tailor welded blanks ................ 0 + + number of heat affected zone property sets..... 0 + + flag for loading segments with file option..... 0 + + flag for loading segments FSI link file........ 0 + + + number of solid elements with initial stress .. 0 + + number of sph elements with initial stress .. 0 + + number of beam elements with initial stress .. 0 + + number of shell elements with initial stress .. 0 + + number of shell elements with initial strain .. 0 + + maximum number of tensor data ................. 0 + + maximum number of history variables ........... 0 + + no. of thick shell elems with initial stress .. 0 + + number of solid elements with initial strain .. 0 + + number of solid elements with initial dof...... 0 + + number of nodes with initial geometry.......... 0 + + write nodes with initial geometry.............. 0 + = 0: do not write nodes + = 1: write nodes + + number of discrete element spheres............. 0 + + flag for initial transverse shear stresses .... 0 + = 0: keep transverse shear stresses (default) + = 1: set transverse shear stresses to zero + + number of of thick shells with inital strain... 0 + + cohesive element flag ICOH = [LK] = K+10*L .... 0 + K = 0: do not delete after neighbor failed + K = 1: delete after neighbor failed + L = 0: default time step estimate + L = 1: most conservative (smallest) + time step estimate + L = 2: intermediate time step estimate + + + CONTROL CARD 13. Computation Options-Materials + + hourglass formulation.......................... 0 + eq.0 LS-DYNA versions 940 and after + eq.1 LS-DYNA versions 936 and before + + hourglass models + eq.1: standard viscous form + eq.2: flanagan-belytschko viscous form + 1pt volume integration for solids + eq.3: flanagan-belytschko viscous form + exact volume integration for solids + eq.4: flanagan-belytschko stiffness form + 1pt volume integration for solids + eq.5: flanagan-belytschko stiffness form + exact volume integration for solids + eq.6: bindeman-belytschko stiffness form + for 2d and 3d solid elements only + eq.9: puso stiffness form for 3d solid + elements only + + hourglass model (default)...................... 0 + + hourglass coefficient (default)................ 0.0000E+00 + + bulk viscosity type (default).................. 0 + eq.-2: standard +types 2,4,10,16,17 shells+IE + eq.-1: standard +types 2,4,10,16,17 shells + eq.+1: standard + + quadratic bulk viscosity coefficient........... 0.0000E+00 + + linear bulk viscosity coefficient.............. 0.0000E+00 + + bulk viscosity type for beams.................. 0 + eq.+1: standard + eq.+2: standard + IE + + flag for rayleigh damping input................ 0 + eq.0: off (default) + eq.1: on + + flag for rigid/deformable material switching... 1 + eq.1: off (default) + eq.2: on + eq.3: on and automatic switching + + thermal effects option......................... 0 + eq.0: no thermal effects + eq.n: nodal temps scaled by load ftn -n- + eq.-1: coupled thermal mechanical analysis + eq.-2: temperature data input option 2 + eq.-3: thermal solution + eq.-4: Read binary temperature file + eq.-9998: user defined load set temp. input + eq.-9999: temperature data input option 1 + + thermal curve ID used for dynamic relaxation... 0 + + super plastic forming input option............. 0 + eq.0: skip input + eq.1: read superplastic input section + + objective stress update for large Dt........... 0 + eq.0: off (default) + eq.1: on globally + eq.2: on for part subset + + default contact parameters input option........ 0 + eq.0: no + eq.1: yes + + number of reinforcement cards for mat 84&85.... 0 + + output interval for aea_crack database......... 0.0000E+00 + + number of non local materials.................. 0 + + neighbours arrays oversized of (%)............. 0 + + number of parts defined for adaptive failure... 0 + + number of elements with specified temperature.. 0 + + number of parts with spotweld rupture stress... 0 + + number of parts with spotweld rupture parametr. 0 + + number of spotweld lists....................... 0 + + number of rows of opt=10 spot weld failure data 0 + + flag for MAT_ADD_EROSION failure switching .... 0 + eq.0: on (default) + eq.1: off globally + + + CONTROL CARD 14. Computation Options-Damping + + load curve specifying system damping........... 0 + eq.-1: system damping by material + eq. n: load curve n defines system damping + + optional constant for system damping........... 0.0000E+00 + + system damping scale factor for x-translation.. 0.1000E+01 + + system damping scale factor for y-translation.. 0.1000E+01 + + system damping scale factor for z-translation.. 0.1000E+01 + + system damping scale factor for x-rotation..... 0.1000E+01 + + system damping scale factor for y-rotation..... 0.1000E+01 + + system damping scale factor for z-rotation..... 0.1000E+01 + + stress initialization flag .................... 0 + eq.-1: dynamic relaxation (debug option) + eq.0: off + eq.1: dynamic relaxation + eq.2: deformed geometry + eq.3: dynamic relaxation with part set ID + eq.5: initialize implicitly + eq.-999:off-not activated by load curves + + convergence check interval (dynamic relaxation) 250 + + convergence tolerance for dynamic relaxation... 0.1000E-02 + + dynamic relaxation factor...................... 0.9950E+00 + + termination time for dynamic relaxation........ 0.0000E+00 + eq.0.0: convergence terminates relaxation + gt.0.0: termination at specified time + unless convergence is attained + + scale factor for dyn relax time step........... 0.9000E+00 + + automatic determination of dr factors.......... 0 + eq.0: off (default) + eq.1: on + + convergence tolerance for above option......... 0.0000E+00 + + active part set ID for dynamic relaxation ..... 0 + + + + CONTROL CARD 15. Computation Options-Contact + + scale factor for contact interface penalties... 0.1000E+00 + + scale factor for rigid wall penalties.......... 0.0000E+00 + + flag to activate MADYMO contact coupling....... 0 + eq.0: inactive + eq.1: active + + track initial penetrations in auto contacts.... 0 + eq.0: no, move node to contact surface + eq.1: yes, initial penetrations remain + + ignore initial separations in tied contacts.... 0 + eq.0: no, eliminate gaps most accurate + eq.1: yes, may lock rotations + + contact initial penetration check option....... 1 + eq.1: off (default) + eq.2: on + + thickness considered in type 3, 5 or 10 contact 0 + eq.0: off + eq.1: on, but rigid bodies excluded + eq.2: on, rigid bodies are included + + penalty stiffness option....................... 1 + eq.1: minimum master/slave value + eq.2: master segment stiffness (old way) + eq.3: slave node stiffness + eq.4: slave node area/mass weighted + eq.5: like 4 but k proportional to 1/thick + + thickness changes considered in contact........ 0 + eq.0: no for type 4, 13, and a13 contact + except for segment based contact (SOFT=2), + eq.1: yes + eq.2: no in any segment based conatct (SOFT=2) + + automatic reorientation option................. 1 + eq.1: on for automatic contact definitions + eq.2: on + eq.3: off + + memory allocation-user contact surface control 0 + gt.0: memory per interface passed to user + + memory allocation-user contact surface frict... 0 + gt.0: memory per interface passed to user + + number of time steps between contact searching. 0 + eq.0: LS-DYNA chooses value + + intermittent searching in type 3 contact....... 0 + eq.0: off (default) + eq.1: on + + release factor for extra searching option...... 0.4000E+01 + + treatment of nodes in eroding contact.......... 0 + eq.0: delete from calculation + eq.1: keep nodes of eroded solids + eq.2: keep nodes of eroded solids & shells + + calculation of frictional sliding energy....... 0 + eq.0: do not calculate + eq.1: calculate + + shell thickness in single surface contact...... 0 + eq.0: use characteristic shell dimension + eq.1: use actual shell thickness + + time step size override for eroding contact.... 0 + eq.0: contact time size may control dt + eq.1: contact is not considered for dt + + number of automatic positioning definitions.... 0 + + print slave node/segment in spotweld contact... 0 + eq.0: no + eq.1: yes, in D3HSP file + + option for unconstrained spotweld node/face.... 0 + eq.0: ignore + eq.1: terminate + eq.2: delete weld and continue + + delete spotweld if tied to failed shell........ 0 + eq.0: no + eq.1: yes + + number of friction table definitions........... 0 + + read in friction table for automatic contacts.. 0 + eq.0: no + ne.0: number of part pair defined for table + + read in spotweld failure table................. 0 + eq.0: no + ne.0: number of part pair defined for table + + contact thickness scaling option for welds..... 0.0000E+00 + eq.0.0: inactive + gt.0.0: scale factor on thickness + + beam spotweld radius scale factor for thinning. 0.0000E+00 + eq.0.0: inactive + gt.0.0: scale factor on radius + + read in smooth contact flags................... 0 + eq.0: no + eq.1: yes + Warning: in Shared Memory Program smooth option only + available for Forming type contact + + flag for eliminating faces on symmetry planes.. 0 + eq.0: use all faces + eq.1: delete faces from contact + + spotweld tension scaling load curve............ 0 + spotweld compression scaling load curve........ 0 + spotweld direction scaling table.(tension)..... 0 + spotweld direction scaling table (shear) ..... 0 + eq.0: table for tension scaling is used + spotweld print flag (on=1)..................... 0 + + number of contact volume definitions........... 0 + + flag to use one way node to surface erosion.... 0 + + flag for implicit rigidwall gap stiffness...... 1 + + eq.1: add initial gap stiffness + eq.2: do not add gap stiffness + + death time for gap stiffness................... 0.0000E+00 + + penalty scale factor for rigid walls........... 0.1000E+01 + + flag for covariant contact formulation......... 0 + + eq.0: covariant formulation not used + eq.1: covariant formulation used + + flag for offsetting thick thermal contact + surfaces in the thermal contacts............... 0 + + eq.0: no offset, if thickness is not included + contact will act on shell mid-surface + eq.1: offsets are applied so that contact + always act on the shell outer surfaces + + flag for shell segment edge shape.............. 0 + eq.0: shell edges assumed round (default) + eq.1: shell edges assumed square + + stiffness calculation for segment based contact 0 + eq.0: use material density (default) + eq.1: use nodal masses + + flag for consistent thermal contact algorithm.. 1 + lt.0: conduction evenly distributed (pre-R4) + eq.1: conduction weighted by shape functions, + reduced integration (default) + eq.2: conduction weighted by shape functions, + full integration + + flag for optional tied interface update ....... 0 + eq.0: integrate accelerations for v and u + eq.1: differentiate u to obtain v and a + + flag for overlapping force transducers......... 0 + eq.0: forces applied to first found (faster) + eq.1: forces applied to all transducers + + scale factor for contact interface mass scaling 0.0000E+00 + shell thickness scale factor for rigidwall .... 0.0000E+00 + flag of contact involving isogeometric ele .... 0 + eq.0: interp. node vs. interp. facet + eq.1: interp. node vs. isogeometric element + print out penetration info for mortar contact.. 0 + scale factor for contact pressure on thickness + shells......................................... 0.1000E+01 + + + CONTROL CARD 16. Computation Options-Parallel + + number of cpus for parallel computations....... 2 + + parallel right hand side assembly.............. 0 + eq.0: on (default) + eq.1: off + + flag for automatic subcycling.................. 0 + eq.0: off (default) + eq.1: on + + number of part IDs for mass scaled subcycling.. 0 + + flag for repeatability in parallel solution.... 2 + eq.1: on (ordered RHS summation-slower) + eq.2: off (default) + + use memory to parallelize repeatability option. 0 + eq.0: off + eq.1: on + maximum time step factor for subcycling........ 0 + + + CONTROL CARD 17. Computation Options-Coupling + + length conversion factor coupling.............. 0.1000E+01 + + time conversion factor coupling................ 0.1000E+01 + + force conversion factor coupling............... 0.1000E+01 + + material repositioning flag.................... 0 + eq.0: off + eq.1: input data defines repositioning + eq.2: no repositioning of defined nodes + + Flag to flip X-coordinates..................... 0 + + Flag to flip Y-coordinates..................... 0 + + Flag to flip Z-coordinates..................... 0 + + Idle time for LS-DYNA.......................... 0.0000E+00 + + Implicit coupling for springback............... 0 + eq.0: off (default) + eq.1: on + eq.2: seamless springback + + DYNAIN output format........................... 0 + eq. 0: ascii + eq. 1: binary + eq. 2: ascii and binary + eq.10: ascii (large) + eq.11: binary (large internal ASCII) + eq.12: ascii and binary (large) + + Mismatched acoustic coupling input flag........ 0 + eq.0: off + eq.1: on + + Two sided acoustic coupling input flag......... 0 + eq.0: off + eq.1: on + + Coupling with USA.............................. 0 + eq.0: off (default) + eq.1: on + + Number of steps for CAL3D/MADYMO3D subcycling.. 1 + + Number of MCOL coupled rigid bodies............ 0 + + Number of vehicles to be initialized........... 0 + + Coupling with CFD.............................. 0 + eq.0: off (default) + eq.1: FAST3D + eq.2: boundary element method + + + CONTROL CARD 18. Computation Options-Output Control + + printout of node, element, velocity input data. 0 + eq.0: on + eq.1: off + + time zero printout of element time step size... 0 + eq.0: no printout + eq.1: print dt for each element at t=0 + + problem status report interval in printer file. 100 + + number of cycles between restart dumps.........99999999 + + number of cycles between running restart dumps.99999999 + + number of files to rewrite running restart .... 1 + + printout of force types to bndout file......... + eq.0: on + eq.1: off + nodal force groups................. 0 + concentrated nodal forces.......... 0 + pressure boundary conditions....... 0 + disp/vel/acc nodal BC.............. 0 + + + node and element printout suppression.......... 0 + eq.1: nodal data is not echoed + eq.2: element data is not echoed + eq.3: node and element data is not echoed + debug information in messag file option........ 0 + eq.0: no + eq.1: yes + update of beam reference nodes................. 0 + eq.0: off + eq.1: on-unique reference nodes required + averaged acceleration-print/time history files. 0 + eq.0: no average (default) + eq.1: averaged between output intervals + eq.2: user defined filtering + output interval for interface file............. 0.4000E-03 + default print flag for the RBDOUT/MATSUM files 0 + eq.0: RBDOUT and MATSUM + eq.1: RBDOUT only + eq.2: MATSUM only + eq.3: no output + include eroded and lumped mass in MATSUM ...... 0 + eq.0: no + eq.1: yes + include 10-node connectivities in D3PLOT ...... 2 + eq.1: yes + eq.2: no + write spring forward database at termination... 0 + eq.0: no + eq.1: include all deformable nodes + eq.2: include nodes of material subset + d3plot and d3thdt binary output format......... 0 + eq.0 default + eq.1 32ieee + flush output file interval..................... 5000 + output interval for d3part database............ 0.0000E+00 + interval via load curve for part database...... 0 + number of part blocks.......................... 0 + Maximum number of messages..................... 0 + Print flag for digitized curve data............ 0 + Print info. of 1d belt created for 2d belt..... 0 + ELOUT shell output coordinate system flag...... 0 + eq.0 default + eq.1 local element coordinate system + eq.2 global coordinate sytstem + number of parts removed from d3plot ........... 0 + number of levels of timing at termination ..... 2 + max frequency of element failure summaries..... 1 + solid element stress extrapolation............. 0 + eq.0 default: no extrapolation + eq.1 extrapolate stress for linear materials only + eq.2 extrapolate stress if plastic strain is zero + eq.3 extrapolate stress always + eq.4 extrapolate all history variables + phase change output control.................... 0 + eq.0 default: no messag + eq.1 write out element ID at time of phase change + + + CONTROL CARD 19. Computation Options-Output Energy + + hourglass energy calculation................... 2 + eq.1: off (default) + eq.2: on + + rigid wall energy calculations................. 2 + eq.1: off (default) + eq.2: on + + contact energy calculation..................... 2 + eq.1: off + eq.2: on + + flag for rayleigh damping energy calculations.. 0 + eq.1: off (default) + eq.2: on + + flag for material energy in D3THDT file........ 2 + eq.1: off + eq.2: on (default) + + + CONTROL CARD 20. Computation Options-LS-POST Database + + time step between dumps of complete state data. 0.4000E-02 + + output interval for interface force database... 0.4000E-02 + + time step between dumps of time history data... 0.0000E+00 + + number of nodal printout blocks................ 0 + + number of solid element printout blocks........ 0 + + number of beam element printout blocks......... 0 + + number of discrete element printout blocks..... 0 + + number of seatbelt element printout blocks..... 0 + + number of shell element printout blocks........ 0 + + number of thick shell element printout blocks.. 0 + + load curve-interval between state data dumps... 0 + + behavior of state data dump curve.............. 1 + eq.1: load curve value added to current time + eq.2: plot time T=current t+curve at T + eq.3: plot at each ordinate point + + load curve-interval between force data dumps... 0 + + load curve-interval between history data dumps. 0 + + flag, user output into shell resultant vector.. 0 + eq.1: off (default) + eq.2: on, user subroutine is called + + number of subsystems for SSSTAT file .......... 0 + + behavior of intfor data curve.................. 1 + eq.1: load curve value added to current time + eq.2: plot time T=current t+curve at T + eq.3: plot at each ordinate point + + + CONTROL CARD 21. Computation Options LS-POST Database + + flag to write ls-post database during dyn rel.. 0 + eq.0: no database write (default) + eq.1: write database at convergence check + eq.n: write database at nth check + + number of extra history variables for solids... 2 + + number of integration points output/solid ..... 1 + + number of extra history var/int.pt for shells.. 0 + + number of integration points output/shell ..... 3 + lt.0: also output 4 points in plane + + flag for including strain tensor in database... 0 + STRFLG[NML] = L + N*10 + N*100 + eq.0: exclude (default) + L.eq.1: Write strain tensor data to d3plot & elout + M.EQ.1: Write plastic strain data to d3plot + N.EQ.1: Write thermal strain data to d3plot + + flag for including stress tensor in database... 1 + eq.1: include (default) + eq.2: exclude for shells, include for solids + eq.3: exclude for shells and solids + + flag for including effective plastic strain.... 1 + eq.1: include (default) + eq.2: exclude for shells, include for solids + eq.3: exclude for shells and solids + + flag for including shell resultants............ 1 + eq.1: include (default) + eq.2: exclude + + flag for including shell energy and thickness.. 1 + eq.1: include (default) + eq.2: exclude + + every state is written to a separate file...... 0 + eq.0: off (default) + eq.1: only one state per plotfile + + composite material stress output .............. 0 + eq.-1: same as 1, but fiber stress and strain + are engineering measured in material + 34 + eq. 0: global + eq. 1: local + eq. 2: local, additional information + output in place of shell resultants + + number of integration points output/beam ...... 0 + + data compression to eliminate rigid body data.. 1 + nodal velocities, and nodal accelerations + eq.1: off + eq.2: on -rigid bodies + eq.3: off-rigid bodies-on nodal data + eq.4: on -rigid bodies-on nodal data + + output shell element hourglass energy.......... 1 + eq.1: off + eq.2: on + + output shell element dt, mass, added mass...... 1 + eq.1: off + eq.2: output dt + eq.3: output mass + + peak pressure flag............................. 0 + eq.1: on + + filter parameter............................... 0.0000E+00 + + flag for solid element additional output....... 0 + eq.1: output 3 additional variables + eq.2: output 5 additional variables + eq.4: output 7 additional variables + + flag for scaled mass output to the d3plot file. 0 + eq.1: output mass increment + eq.2: output percentage increase + + flag for thermal data.......................... 1 + eq.0 or 1: output temperature + eq.2: output temperature and flux + eq.3: output temp, flux, and thick shell temps + + flag for including stress tensor at int. point 0 + eq.0: exclude (default) + eq.1: include stress (solid and shells) + + flag for including stress tensor at nodes ..... 0 + eq.0: exclude (default) + eq.1: include local stress (solid and shell) + eq.2: include global stress (solid and shell) + + flag for including strain tensor at int. point 0 + eq.0: exclude (default) + eq.1: include strains (solid and shells) + + flag for including strain tensor at nodes ..... 0 + eq.0: exclude (default) + eq.1: include local strain (solid and shell) + eq.2: include global strain (solid and shell) + output interval for blast force database....... 0.0000E+00 + lt.0: interval specified by load curve + + + CONTROL CARD 22. Computation Options-ASCII Output I + + output interval for cross section forces....... 0.0000E+00 + output interval for rigid wall forces ......... 0.4000E-03 + output interval for nodal print blocks......... 0.0000E+00 + output interval for element print blocks....... 0.0000E+00 + output interval for global statistics ......... 0.4000E-03 + output interval for subsystem statistics ...... 0.0000E+00 + output interval for discrete elements.......... 0.0000E+00 + output interval for material summaries......... 0.4000E-03 + output interval for nodal interface forces..... 0.0000E+00 + output mass properties in subsystem statistics. 0 + output mass properties in global statistics.... 0 + additional history variables output-solids..... 0 + additional history variables output-shells..... 0 + additional history variables output-tshells.... 0 + additional history variables output-beams...... 0 + + + + CONTROL CARD 23. Computation Options-ASCII Output II + + output interval for resultant interface forces. 0.4000E-03 + output interval for smug nodal data............ 0.0000E+00 + output interval for sp constraint forces....... 0.0000E+00 + output interval for nodal constraint forces.... 0.0000E+00 + output interval for airbag statistics.......... 0.0000E+00 + output interval for avs filter................. 0.0000E+00 + output interval for nodal force groups......... 0.0000E+00 + output interval for b.c. forces and energy .... 0.0000E+00 + + + + CONTROL CARD 24. Computation Options-ASCII Output III + + output interval for rigid body data............ 0.0000E+00 + output interval for geometric contact entities. 0.0000E+00 + output interval for mpgs database............. 0.0000E+00 + output interval for movie database............. 0.0000E+00 + output interval for interface energies......... 0.4000E-03 + output interval for seatbelt response.......... 0.0000E+00 + output interval for joint forces............... 0.0000E+00 + output interval for tracer particles........... 0.0000E+00 + output interval for discrete beam data......... 0.0000E+00 + output type for discrete beam data ............ 0 + curve id for discrete beam data ............... 0 + option for ascii output time for discrete beam. 0 + + output interval for pulley element data........ 0.0000E+00 + output type for pulley element data ........... 0 + curve id for pulley element data .............. 0 + option for ascii output time for pulley element 0 + + output interval for bearing element data........ 0.0000E+00 + output type for bearing element data ........... 1 + curve id for bearing element data .............. 0 + option for ascii output time for bearing ....... 0 + + output interval for des mass flow data.......... 0.0000E+00 + output type for des mass flow data ............. 1 + curve id for des mass flow data ................ 0 + option for ascii output time for des mass flow.. 0 + + output interval for curvout .................... 0.0000E+00 + output type for curvout ........................ 1 + curve id for curvout ........................... 0 + option for ascii output time for curvout ....... 0 + + + + CONTROL CARD 25. ALE 1st card + + Default continuum treatment.................... 0 + eq.1: Lagrangian (default) + eq.2: Eulerian + eq.3: Arbitrary Lagrangian Eulerian + eq.4: Eulerian Ambient + + Number of cycles between rezones............... 0 + + Advection formulation.......................... 0 + eq.1: Donor Cell + HIS + eq.2: Van Leer + HIS (default) + + Relaxation factor 1 (simple average)........... -0.1000E+01 + + Relaxation factor 2 (volume weighting)......... 0.0000E+00 + + Relaxation factor 3 (isoparametric)............ 0.0000E+00 + + Relaxation factor 4 (equipotential)............ 0.0000E+00 + + Relaxation factor 5 (equilibrium).............. 0.0000E+00 + + Output interval for euler statistics........... 0.0000E+00 + + + CONTROL CARD 26. ALE 2nd card + + time to begin rezoning......................... 0.0000E+00 + + time to end rezoning........................... 0.0000E+00 + + SALE advection factor.......................... 0.0000E+00 + + number of void materials....................... 0 + + Void factor.................................... 0.1000E-05 + + Automatic euler boundary condition flag........ 0.0000E+00 + eq.0: Off. + eq.1: On with stick condition. + eq.2: On with slip condition. + + Number of non-interacting Euler materials...... 0 + + Number of multi-material Euler groups.......... 0 + + Reference pressure............................. 0.0000E+00 + + Pressure equilibrium........................... 0 + eq.0: Off + eq.1: On + Number of parts considered in ALE convection... 0 + + Number of cycles between ALE coupling.......... 1 + + Number of cycles between ALE bucket sort....... 50 + + Number of ALE Multi-material group switching... 0 + + Number of ALE mixing length.................... 0 + + Number of ALE coupling to nodes ............... 0 + + Number of ALE essential boundaries ............ 0 + + Number of ALE tracer particles ................ 0 + + + CPM output format.............................. 11 + eq.11: Version 3 (full output) + eq.21: Version 4 (full output) + eq.22: (coordinates) + eq.23: (summary) + # of CPM airbag interaction.................... 0 + + # of cycle for CPM repartition................. 5 + CPM time step control.......................... 0 + eq.0: no control + eq.1: set CPM timestep size as 1 usec + CPM check bag and chamber connectivity......... 0 + eq.0: no + eq.1: yes (error termination if detected) + Scale factor of force decay constant........... 0.0000E+00 + Use new p2f contact algorithm (_P2FNEW)........ 0 + eq.0: no + eq.1: yes + + + PG output format............................... 11 + eq.11: Version 3 (full output) + eq.21: Version 4 (full output) + eq.22: (coordinates) + eq.23: (summary) + # of PG airbag interaction..................... 0 + + # of cycle for PG repartition.................. 5 + PG time step control........................... 0 + eq.0: no control + eq.1: set PG timestep size as 1 usec + + + CONTROL CARD 37. SPH 1st card + + Sort frequency................................. 1 + + Box activation................................. 0 + + First option................................... 0.1000E+11 + + Space dimension................................ 2 + + Memory allocation for neighbors MEMORY......... 150 + allocation type:........................ DYNAMIC + + Particle approximation......................... 0 + eq.0: Standard gather form (Lacome-Vila 1998) + eq.1: Renormalization (Ben Moussa-Vila 1998) + eq.2: Symmetric formulation (Benz 1989) + eq.3: Symmetric renormalization (Libersky 1993) + eq.4: Elliptic smoothing length + eq.5: Fluid formulation + eq.6: Renormalized fluid formulation + eq.7: Total Lagrangian formulation + eq.8: Renormalized Total Lagrangian formulation + + Start time of SPH analysis..................... 0.0000E+00 + + Maximum velocity............................... 0.1000E+16 + + Contact definition between SPH parts........... 0 + eq.0: Approximation is computed + eq.1: Approximation is not computed + + Time derivative for smoothing length........... 0 + Initial smooth length computation option....... 0 + Display options for SPH particles.............. 0 + Erosion control option for SPH particles....... 0 + Contact treatment for deactivated particles.... 0 + eq.0: Contact remains active + eq.1: Contact becomes inactive + + Artificial viscosity for SPH particles......... 0 + eq.0: Monaghan type bulk viscosity (change + to bulk coefficents recommended) + eq.1: Solid elements type bulk viscosity + SPH Pressure smoothing parameter............... 0.1000E+01 + + + + CONTROL CARD 38. SPH group number............. 1 + + Number of particles............................ 25 + + Number of material............................. 101 + + Smoothing length constant...................... 0.1300E+01 + + Minimum smoothing length ...................... 0.2000E+00 + + Maximum smoothing length ...................... 0.2000E+01 + + Initial smoothing length ...................... 0.0000E+00 + eq.0: calculated by LS-DYNA + + Death time for SPH material.................... 0.1000E+21 + + Start time for SPH material.................... 0.0000E+00 + + + + + CONTROL CARD 50. EFG + + ispline ....................................... 0 + + idila.......................................... 0 + + inint.......................................... 0 + + iefgs.......................................... 0 + + intfs.......................................... 0 + + + + p a r t d e f i n i t i o n s + + material type + eq.1 isotropic + eq.2 orthotropic + eq.3 elastoplastic ( von mises ) + eq.4 thermo-elastic-plastic + eq.5 soil and crushable foam model + eq.6 viscoelastic model + eq.7 blatz-ko finite elastic rubber + eq.8 high explosive model + eq.9 null material + eq.10 hydrodynamic - elastic-plastic + eq.11 steinberg - guinan model + eq.12 isotropic elastic-plastic + eq.13 elastic-plastic with failure + eq.14 crushable foam with failure + eq.15 johnson/cook plasticity model + eq.16 pseudo tensor geological model + eq.17 elastoplastic with fracture + eq.18 power law isotropic plasticity + eq.19 strainrate sensitive plasticity + eq.20 rigid material + eq.21 thermal orthotropic(12 constants) + eq.22 composite material damage model + eq.23 thermal orthotropic(12 curves) + eq.24 piecewise linear plasticity + eq.25 soil cap model by taylor + eq.26 crushable metallic honeycomb + eq.27 hyperelastic mooney-rivlin + eq.28 shell/beam resultant plasticity + eq.29 beam resultant force limited + eq.30 shape-memory alloy + eq.31 frazer-nash rubber model + eq.32 safety glass + eq.33 barlat's anisotropic plasticity + eq.34 fabric + eq.35 elastoplastic (green-naghdi rate) + eq.36 barlat's 3-parameter plasticity + eq.37 anisotropic plasticity model + eq.38 blatz-ko finite elastic foam + eq.39 fld anisotropic plasticity + eq.40 nonlinear orthotropic elastic + eq.41-50 user material models + eq.51 bammann plasticity model + eq.52 sandia damage model + eq.53 crushable cellular foam + eq.54 composite damage model(hashin) + eq.55 composite damage model(tsai-wu) + eq.57 low density urethane foam + eq.58 laminated composite fabric + eq.59 composite failure + eq.60 viscous glass model model + eq.61 maxwell/kelvin viscoelastic + eq.62 viscous foam model + eq.63 crushable foam model + eq.64 rate sensitive powerlaw plasticity + eq.65 modified armstrong-zerrilli model + eq.66 elastic resultant beams + eq.67 nonlinear elastic via load curves + eq.68 plastic resultant via load curves + eq.69 sid impact dummy damper + eq.70 hydraulic/gas damper + eq.71 cable + eq.72 k & c concrete damage + eq.73 low density viscous foam + eq.74 elastic spring discrete beam + eq.75 bilkhu/dubois crushable foam + eq.76 linear viscoelastic + eq.77 general hyperelastic/ogden + eq.78 soil/concrete + eq.79 hysteretic soil + eq.80 ramberg-osgood + eq.81 plastic damage model + eq.82 plastic orthotropic damage model + eq.83 fu-chang rate sensitive foam model + eq.84 reinforced concrete (aea winfrith, 1990) + eq.86 orthotropic viscoelastic + eq.87 cellular viscoelastic rubber + eq.88 material threshold stress (mts) + eq.89 plasticity polymer + eq.90 acoustic media + eq.91 hyperelastic soft tissue + eq.92 visco-hyperelastic soft tissue + eq.93 elastic 6-dof spring + eq.94 inelastic spring discrete beam + eq.95 inelastic 6-dof spring + eq.96 brittle damage + eq.97 general joint discrete beam + eq.98 simplified johnson cook + eq.99 simplified johnson cook with damage + eq.100 spotweld material + eq.101 ge rate sensitive plasticity + eq.102 inverse hyperbolic sine + eq.103 viscoplastic model (ntnu, 1996) + eq.104 damage model 1 (ntnu, 1997) + eq.105 damage model 2 (ntnu, 1997) + eq.106 elastic viscoplastic thermal + eq.107 modified johnson cook + eq.108 orthotropic elastic plastic + eq.110 johnson/holmquist ceramics + eq.111 johnson/holmquist concrete + eq.112 finite elastic strain plasticity + eq.113 trip for austenitic stainless + eq.114 layered piecewise linear plasticity + eq.115 unified creep + eq.116 composite lay up + eq.117 composite matrix + eq.118 composite direct + eq.119 general nonlinear 6dof discrete beam + eq.120 gurson + eq.121 general nonlinear 1dof discrete beam + eq.122 hill 3r + eq.123 modified piecewise linear plasticity + eq.124 compression-tension plasticity + eq.125 yoshida kinematic plasticity model + eq.126 crushable metallic honeycomb + eq.127 arruda-boyce hyper-viscoelastic + eq.128 heart tissue + eq.129 lung hyper-viscoelastic + eq.130 special orthotropic + eq.131 tno isotropic smeared crack model + eq.132 tno orthotropic smeared crack model + eq.133 barlat yld2000 + eq.135 wtm/stm + eq.136 orthotropic vegter model + eq.137 anisotropic ito-goya model + eq.139 modified resultant beam force limited + eq.140 vacuum + eq.141 rate sensitive polymer + eq.142 anisotropic crushable foam + eq.143 aptek orthotropic wood + eq.144 pitzer crushable foam + eq.145 continuous surface cap with damage + eq.146 1dof generalized spring + eq.147 fhwa soil + eq.148 gas mixture + eq.150 cfd - constant properties + eq.152 hyperbolic tangent thermal + eq.153 damage model 3 + eq.154 deshpande fleck foam model + eq.155 compression-tension eos model + eq.156 muscle model + eq.157 anisotropic elastic plastic + eq.158 rate sensitive composite fabric + eq.159 continuous surface cap + eq.161 composite msc + eq.162 composite dmg msc + eq.163 modified crushable foam + eq.164 brain linear viscoelastic + eq.165 plastic nonlinear kinematic + eq.166 moment curvature beam + eq.167 mccormick + eq.168 polymer + eq.169 arup adhesive + eq.170 resultant anisotropic + eq.171 steel concentric brace + eq.172 concrete ec2 + eq.173 mohr couloumb + eq.174 rc beam + eq.176 quasilinear viscoelastic + eq.177 hill foam + eq.178 viscoelastic hill foam + eq.179 low density synthetic foam + eq.180 low density synthetic foam ortho + eq.181 simplified rubber model + eq.182 viscoelastic plastic model + eq.187 semi-analytical model for polymers + eq.188 thermo elastic viscoplastic creep + eq.189 anisotropic thermo elastic + eq.190 barlat 3-parameter fld plasticity + eq.191 seismic beam + eq.192 soil brick + eq.193 drucker prager + eq.194 rc shear wall + eq.195 concrete beam + eq.196 general spring discrete beam + eq.197 seismic isolator + eq.198 jointed rock + eq.202 steel EC3 + eq.203 hysteretic reinforcement + eq.206 Park Ang beam + eq.208 bolt beam + eq.213 awg composite damage + eq.214 dry fabric + eq.219 codam2 + eq.220 rigid material discrete particles + eq.221 orthotropic simplified damage + eq.222 genoa material for laminates + eq.223 orthotropic advanced damage + eq.224 tabulated johnson cook + eq.225 viscoplastic mixed hardening + eq.230 elastic pml + eq.231 acoustic pml + eq.232 biot hysteretic + eq.233 cazacu barlat + eq.234 viscoelastic loose fabric + eq.235 micromechanics dry fabric + eq.236 silicon carbid coating on RCC + eq.237 hysteretic pml + eq.242 barlat yld2000 Yoshida hardening + eq.243 hill 90 + eq.244 ultra high strength steel + eq.248 press hardening steel bmw model + eq.249 reinforced thermoplastic + eq.251 tailored properties + eq.252 toughened adhesive polymer + eq.255 piecewise linear plastic thermal + eq.256 amorphous solids finite stain + eq.258 non quadratic with failure + eq.260 Stoughton non-associated flow + eq.261 laminated fracture daimler pinho + eq.262 laminated fracture daimler camanho + eq.264 tabulated johnson cook ortho plastic + eq.266 tissue dispersed + eq.267 eight chain rubber + eq.269 bergstrom-boyce rubber model + eq.270 computational welding mechanics model + eq.271 powder compaction model + eq.272 RHT concrete + eq.273 CDPM concrete + eq.274 paper + eq.275 smooth viscoelastic viscoplastic + equation-of-state types + eq.1 linear polynomial + eq.2 jwl high explosive + eq.3 sack tuesday high explosive + eq.4 gruneisen + eq.5 ratio of polynomials + eq.6 linear polynomial with source + eq.7 initiation and reaction in he + eq.8 compaction + eq.9 tabulated + eq.11 tensor pore collapse + eq.14 jwlb high explosive + eq.15 one-dimensional gasket + eq.16 mie-gruneisen with p-alpha + hourglass models + eq.1 viscous + eq.2 flanagan-belytschko viscous form + eq.3 full flanagan-belytschko viscous form + (constant stress solid elements) + eq.4 flanagan-belytschko stiffness form + eq.5 full flanagan-belytschko stiffness form + eq.6 bindeman-belytschko stiffness form + (solid 2d and 3d elements) + eq.7 linear total strain stiffness form + (solid 2d and 3d elements) + eq.9 puso stiffness form (solid 3d elements) + eq.10 cosserat total strain stiffness form + (solid 3d elements) + bulk viscosity models + eq.1 standard + defaults + hourglass model....................... 2 + hourglass coefficient................. 1.00000E-01 + bulk viscosity type................... 1 + quadratic bulk viscosity coefficient.. 1.50000E+00 + linear bulk viscosity coefficient..... 6.00000E-02 + + *********************************************************************** + + + + + part id ..................... 101 + section id ..................... 101 + material id ..................... 1 + section title .................. + + material title .................. + + material type .............. 3 + equation-of-state type ..... 0 + hourglass type ............. 2 + bulk viscosity type ........ 1 + + density .......................... = 2.71000E-03 + hourglass coefficient ............ = 1.00000E-01 + quadratic bulk viscosity ......... = 1.50000E+00 + linear bulk viscosity ............ = 6.00000E-02 + element type ..................... = 0 + eq.0: 4, 6, 8, 10-node solid element or SPH element + eq.1: 2-node beam or truss or 2D shell element + eq.2: 3, 4-node membrane/shell or 2D continuum element + eq.3: 8-node thick shell element + + flag for bulk viscosity in shells. = 0 + flag for rbdout/matsum output ... = 0 + eq.0: rbdout and matsum + eq.1: rbdout only + eq.2: matsum only + eq.3: no output + static coefficient of friction ... = 0.00000E+00 + kinetic coefficient of friction... = 0.00000E+00 + exponential decay coefficient .... = 0.00000E+00 + viscous friction coefficient ..... = 0.00000E+00 + optional contact thickness ....... = 0.00000E+00 + optional thickness scale factor... = 0.00000E+00 + local penalty scale factor........ = 0.00000E+00 + optional beam to beam cparm8...... = 0 + flag for adaptive remeshing ...... = 0 + eq.0: inactive + eq.1: h-adaptive only + eq.2: r-adaptive only + rayleigh damping coefficient...... = 0.00000E+00 + e ................................ = 6.89000E+04 + vnu .............................. = 3.30000E-01 + yield ............................ = 1.17000E+02 + e (harden) ....................... = 6.80000E+00 + hardening parmeter ............... = 1.00000E+00 + strainrate parameter, c .......... = 0.00000E+00 + strainrate parameter, p .......... = 0.00000E+00 + formulation for rate effects ..... = 0.00000E+00 + eq.0.0: default + eq.1.0: viscoplastic + failure strain for erosion........ = 0.00000E+00 + solid formulation ............... = 1 + eq.-2: 8 point integration-3dof/node + for poor aspect ratio elements + eq.-1: 8 point integration-3dof/node + for poor aspect ratio elements + (efficient variant of -2 but + prone to some hourglassing) + eq. 1: 1 point integration + eq. 2: 8 point integration-3dof/node + eq. 3: 14 point integration-6dof/node + eq. 4: 5 point tetrahedron-6dof/node + eq. 5: 1 point ale + eq. 6: 1 point eulerian + eq. 7: 1 point eulerian ambient + eq. 8: 1 point acoustic + eq. 9: 1 point corotational + eq.10: 1 point tetrahedron + eq.11: multi-material eulerian + eq.12: eulerian with void + eq.13: nodal pressure tetrahedron + eq.14: 8 point acoustic + eq.15: 2 point pentahedron + eq.115: 1 point pentahedron + eq.16: 10-node quadratic tetrahedron + eq.17: 10-node composite tetrahedron + eq.18: linear static element + eq.19: 8-node 2x2 cohesive + eq.20: 8-node 2x2 cohesive with offsets for shells + eq.21: 6-node 1x1 cohesive + eq.22: 6-node 1x1 cohesive with offsets for shells + eq.23: 20-node quadratic hexahedron + eq.41: efg 3d + eq.42: efg 3d for 4-noded background + eq.43: mesh-free enriched finite element + eq.47: smoothed particle Galerkin method + eq.99: elastic vibration element + corotational local coord. ........ = 0 + eq. 0: not requested + eq. 1: requested + + *********************************************************************** + + + null shells for visualization + + part id ..................... 1 + section id ..................... -12345677 + material id ..................... 0 + section title .................. + + material title .................. + + material type .............. 9 + equation-of-state type ..... 0 + hourglass type ............. 2 + bulk viscosity type ........ 1 + + density .......................... = 1.30000E-13 + hourglass coefficient (membrane).. = 1.00000E-01 + hourglass coefficient (rotation).. = 1.00000E-01 + hourglass coefficient (warping ).. = 1.00000E-01 + quadratic bulk viscosity ......... = 1.50000E+00 + linear bulk viscosity ............ = 6.00000E-02 + element type ..................... = 2 + eq.0: 4, 6, 8, 10-node solid element or SPH element + eq.1: 2-node beam or truss or 2D shell element + eq.2: 3, 4-node membrane/shell or 2D continuum element + eq.3: 8-node thick shell element + + flag for bulk viscosity in shells. = 0 + flag for rbdout/matsum output ... = 0 + eq.0: rbdout and matsum + eq.1: rbdout only + eq.2: matsum only + eq.3: no output + static coefficient of friction ... = 0.00000E+00 + kinetic coefficient of friction... = 0.00000E+00 + exponential decay coefficient .... = 0.00000E+00 + viscous friction coefficient ..... = 0.00000E+00 + optional contact thickness ....... = 0.00000E+00 + optional thickness scale factor... = 0.00000E+00 + local penalty scale factor........ = 0.00000E+00 + optional beam to beam cparm8...... = 0 + flag for adaptive remeshing ...... = 0 + eq.0: inactive + eq.1: h-adaptive only + eq.2: r-adaptive only + rayleigh damping coefficient...... = 0.00000E+00 + pressure cutoff .................. = 0.00000E+00 + viscosity coefficient ............ = 0.00000E+00 + relative volume for tensile fail.. = 0.00000E+00 + relative volume for compres fail.. = 0.00000E+00 + e ..(null shells and beams)....... = 0.00000E+00 + vnu (null shells and beams)....... = 0.00000E+00 + shear area factor ................ = 1.00000E+00 + thru-thickness integration points = 2.00000E+00 + print out option ................. = 3.00000E+00 + eq.1.0:average resultants & fiber lengths + eq.2.0:resultants at plan points & fiber lengths + eq.3.0:resultants,stresses all points & fiber lengths + + integration rule ................. = 0.00000E+00 + lt.0.0:absolute value is specified rule # + eq.0.0:gauss (trapezoidal if > 10 IP) + eq.1.0:trapezoidal rule + shell formulation ................ = 2 + eq. 1: hughes-liu + eq. 2: belytschko-tsay + eq. 3: bciz + eq. 4: c0-triangular element + eq. 5: membrane element + eq. 6: s/r hughes-liu + eq. 7: s/r co-rotational hughes-liu + eq. 8: belytschko-leviathan + eq. 9: fully integrated membrane + eq. 10: belytschko-wong-chiang + eq. 11: fast hughes-liu + eq. 12: 2d plane stress + eq. 13: 2d plane strain + eq. 14: 2d axisymmetric (area wgt) + eq. 15: 2d axisymmetric (volume wgt) + eq. 16: fully integrated element + eq. 17: dkt element + eq. 18: dkq-dkt linear element + eq. 20: assumed strain linear element + eq. 21: assumed strain linear elem(5DOF) + eq. 22: linear shear panel element(3DOF) + eq. 23: 8-node quadratic quadrilateral + eq. 24: 6-node quadratic triangular + eq. 25: belytschko-tsay with + thickness stretch + eq. 26: fully integrated element with + thickness stretch + eq. 27: c0-triangular element with + thickness stretch + eq. 29: cohesive element + eq. 41: meshfree shell local projection + eq. 42: meshfree shell global projection + eq. 43: meshfree plane strain + eq. 44: meshfree axisymmetric solid + eq. 46: cohesive element + eq. 47: cohesive with shell offsets + eq. 55: 8-node 2D plane strain fracture + eq. 98: interpolation shell element + eq. 99: elastic vibration element + eq. 201: isogeometric nurbs element + ge.1000: user defined (generalized) shell + shell thickness: node 1 .. = 1.00000E-09 + node 2 .. = 1.00000E-09 + node 3 .. = 1.00000E-09 + node 4 .. = 1.00000E-09 + + reference surface ................ = 0.00000E+00 + eq. 1.0:top + eq. 0.0:middle + eq.-1.0:bottom + + mass per unit area ............... = 0.00000E+00 + + flag for discontinuous thickness + field for elements with thickness + stretch .......................... = 2 + eq. 0: default is 1 + eq. 1: thickness field is continuous + eq. 2: thickness field is discontinous + accurate type 16 formulation...... = 0 + + + + n o d a l p o i n t c o o r d i n a t e s + + node ID trnbc x-ord y-ord z-ord rotbc + 1001801 0.0 0.4998E+00 -0.1105E+02 0.0000E+00 0.0 + 1001802 0.0 0.7115E+00 -0.1105E+02 0.0000E+00 0.0 + 1001803 0.0 0.9232E+00 -0.1105E+02 0.0000E+00 0.0 + 1001804 0.0 0.1135E+01 -0.1105E+02 0.0000E+00 0.0 + 1001805 0.0 0.1347E+01 -0.1105E+02 0.0000E+00 0.0 + 1001921 0.0 0.4998E+00 -0.1086E+02 0.0000E+00 0.0 + 1001922 0.0 0.7115E+00 -0.1086E+02 0.0000E+00 0.0 + 1001923 0.0 0.9232E+00 -0.1086E+02 0.0000E+00 0.0 + 1001924 0.0 0.1135E+01 -0.1086E+02 0.0000E+00 0.0 + 1001925 0.0 0.1347E+01 -0.1086E+02 0.0000E+00 0.0 + 1002041 0.0 0.4998E+00 -0.1067E+02 0.0000E+00 0.0 + 1002042 0.0 0.7115E+00 -0.1067E+02 0.0000E+00 0.0 + 1002043 0.0 0.9232E+00 -0.1067E+02 0.0000E+00 0.0 + 1002044 0.0 0.1135E+01 -0.1067E+02 0.0000E+00 0.0 + 1002045 0.0 0.1347E+01 -0.1067E+02 0.0000E+00 0.0 + 1002161 0.0 0.4998E+00 -0.1048E+02 0.0000E+00 0.0 + 1002162 0.0 0.7115E+00 -0.1048E+02 0.0000E+00 0.0 + 1002163 0.0 0.9232E+00 -0.1048E+02 0.0000E+00 0.0 + 1002164 0.0 0.1135E+01 -0.1048E+02 0.0000E+00 0.0 + 1002165 0.0 0.1347E+01 -0.1048E+02 0.0000E+00 0.0 + 1002281 0.0 0.4998E+00 -0.1029E+02 0.0000E+00 0.0 + 1002282 0.0 0.7115E+00 -0.1029E+02 0.0000E+00 0.0 + 1002283 0.0 0.9232E+00 -0.1029E+02 0.0000E+00 0.0 + 1002284 0.0 0.1135E+01 -0.1029E+02 0.0000E+00 0.0 + 1002285 0.0 0.1347E+01 -0.1029E+02 0.0000E+00 0.0 + 1002286 7.0 0.0000E+00 -0.1026E+02 0.2540E-01 7.0 + 1002287 7.0 0.0000E+00 -0.1026E+02 -0.2540E-01 7.0 + 1002288 7.0 0.0000E+00 -0.1107E+02 -0.2540E-01 7.0 + 1002289 7.0 0.0000E+00 -0.1107E+02 0.2540E-01 7.0 + + + + n o d a l s p c s u m m a r y o n *NODE cards + boundary conditions (on=1) + node x y z rx ry rz + 1002286 1 1 1 1 1 1 + 1002287 1 1 1 1 1 1 + 1002288 1 1 1 1 1 1 + 1002289 1 1 1 1 1 1 + + + + s h e l l e l e m e n t s + + elem id part id node1 node2 node3 node4 + thick1 thick2 thick3 thick4 angle offset + 1 1 1002286 1002287 1002288 1002289 + 1.0000E-09 1.0000E-09 1.0000E-09 1.0000E-09 0.0000E+00 0.0000E+00 + + + + S P H e l e m e n t m a s s d a t a + + element id mat id mass + 1001801 101 0.1093E-03 + 1001802 101 0.1093E-03 + 1001803 101 0.1093E-03 + 1001804 101 0.1093E-03 + 1001805 101 0.1093E-03 + 1001921 101 0.1093E-03 + 1001922 101 0.1093E-03 + 1001923 101 0.1093E-03 + 1001924 101 0.1093E-03 + 1001925 101 0.1093E-03 + 1002041 101 0.1093E-03 + 1002042 101 0.1093E-03 + 1002043 101 0.1093E-03 + 1002044 101 0.1093E-03 + 1002045 101 0.1093E-03 + 1002161 101 0.1093E-03 + 1002162 101 0.1093E-03 + 1002163 101 0.1093E-03 + 1002164 101 0.1093E-03 + 1002165 101 0.1093E-03 + 1002281 101 0.1093E-03 + 1002282 101 0.1093E-03 + 1002283 101 0.1093E-03 + 1002284 101 0.1093E-03 + 1002285 101 0.1093E-03 + + + + r i g i d w a l l d e f i n i t i o n s + + + + + rigidwall ID = 1 + # of slave nodes = 29 + birth time = 0.00000E+00 + death time = 0.10000E+21 + penalty scale factor = 0.10000E+01 + moving rigidwall flag = 0 + eq.1: flat rigidwall has mass and vel. + eq.2: prescribed velocity history + eq.3: prescribed displacement history + generalized rigidwall type = 0 + eq.0: flat of infinite extent + eq.1: flat with defined size + eq.2: extra nodes and softening + eq.3: options 2 and 3 active + eq.4: prescribed motion flat plate + eq.5: prescribed motion cylinder + eq.6: prescribed motion sphere + eq.7: prescribed motion prism + eq.8: prescribed motion cylinder (interior) + eq.9: prescribed motion sphere (interior) + stick condtion = 0.00000E+00 + eq.0: frictionless sliding + gt.0.and.lt.1:frictional sliding + eq.1: sticking + eq.2: normal weld + eq.3: sticking weld + + coordinates of orientation vector are + i j + 0.0000E+00 0.1000E+01 + 0.0000E+00 0.0000E+00 + 0.0000E+00 0.0000E+00 + slave nodes + 1. 1001801 + 2. 1001802 + 3. 1001803 + 4. 1001804 + 5. 1001805 + 6. 1001921 + 7. 1001922 + 8. 1001923 + 9. 1001924 + 10. 1001925 + 11. 1002041 + 12. 1002042 + 13. 1002043 + 14. 1002044 + 15. 1002045 + 16. 1002161 + 17. 1002162 + 18. 1002163 + 19. 1002164 + 20. 1002165 + 21. 1002281 + 22. 1002282 + 23. 1002283 + 24. 1002284 + 25. 1002285 + 26. 1002286 + 27. 1002287 + 28. 1002288 + 29. 1002289 + + + + n o d a l p o i n t v e l o c i t i e s + + node id x-vel y-vel z-vel + x-rot y-rot z-rot + 1001801 -5.0000E+01 0.0000E+00 0.0000E+00 + 0.0000E+00 0.0000E+00 0.0000E+00 + 1001802 -5.0000E+01 0.0000E+00 0.0000E+00 + 0.0000E+00 0.0000E+00 0.0000E+00 + 1001803 -5.0000E+01 0.0000E+00 0.0000E+00 + 0.0000E+00 0.0000E+00 0.0000E+00 + 1001804 -5.0000E+01 0.0000E+00 0.0000E+00 + 0.0000E+00 0.0000E+00 0.0000E+00 + 1001805 -5.0000E+01 0.0000E+00 0.0000E+00 + 0.0000E+00 0.0000E+00 0.0000E+00 + 1001921 -5.0000E+01 0.0000E+00 0.0000E+00 + 0.0000E+00 0.0000E+00 0.0000E+00 + 1001922 -5.0000E+01 0.0000E+00 0.0000E+00 + 0.0000E+00 0.0000E+00 0.0000E+00 + 1001923 -5.0000E+01 0.0000E+00 0.0000E+00 + 0.0000E+00 0.0000E+00 0.0000E+00 + 1001924 -5.0000E+01 0.0000E+00 0.0000E+00 + 0.0000E+00 0.0000E+00 0.0000E+00 + 1001925 -5.0000E+01 0.0000E+00 0.0000E+00 + 0.0000E+00 0.0000E+00 0.0000E+00 + 1002041 -5.0000E+01 0.0000E+00 0.0000E+00 + 0.0000E+00 0.0000E+00 0.0000E+00 + 1002042 -5.0000E+01 0.0000E+00 0.0000E+00 + 0.0000E+00 0.0000E+00 0.0000E+00 + 1002043 -5.0000E+01 0.0000E+00 0.0000E+00 + 0.0000E+00 0.0000E+00 0.0000E+00 + 1002044 -5.0000E+01 0.0000E+00 0.0000E+00 + 0.0000E+00 0.0000E+00 0.0000E+00 + 1002045 -5.0000E+01 0.0000E+00 0.0000E+00 + 0.0000E+00 0.0000E+00 0.0000E+00 + 1002161 -5.0000E+01 0.0000E+00 0.0000E+00 + 0.0000E+00 0.0000E+00 0.0000E+00 + 1002162 -5.0000E+01 0.0000E+00 0.0000E+00 + 0.0000E+00 0.0000E+00 0.0000E+00 + 1002163 -5.0000E+01 0.0000E+00 0.0000E+00 + 0.0000E+00 0.0000E+00 0.0000E+00 + 1002164 -5.0000E+01 0.0000E+00 0.0000E+00 + 0.0000E+00 0.0000E+00 0.0000E+00 + 1002165 -5.0000E+01 0.0000E+00 0.0000E+00 + 0.0000E+00 0.0000E+00 0.0000E+00 + 1002281 -5.0000E+01 0.0000E+00 0.0000E+00 + 0.0000E+00 0.0000E+00 0.0000E+00 + 1002282 -5.0000E+01 0.0000E+00 0.0000E+00 + 0.0000E+00 0.0000E+00 0.0000E+00 + 1002283 -5.0000E+01 0.0000E+00 0.0000E+00 + 0.0000E+00 0.0000E+00 0.0000E+00 + 1002284 -5.0000E+01 0.0000E+00 0.0000E+00 + 0.0000E+00 0.0000E+00 0.0000E+00 + 1002285 -5.0000E+01 0.0000E+00 0.0000E+00 + 0.0000E+00 0.0000E+00 0.0000E+00 + 1002286 -5.0000E+01 0.0000E+00 0.0000E+00 + 0.0000E+00 0.0000E+00 0.0000E+00 + 1002287 -5.0000E+01 0.0000E+00 0.0000E+00 + 0.0000E+00 0.0000E+00 0.0000E+00 + 1002288 -5.0000E+01 0.0000E+00 0.0000E+00 + 0.0000E+00 0.0000E+00 0.0000E+00 + 1002289 -5.0000E+01 0.0000E+00 0.0000E+00 + 0.0000E+00 0.0000E+00 0.0000E+00 + + *** S.P.H. *** + + Space dimension for SPH 2 + + Initial Smoothing length : PART # 101 0.2751672E+00 + SPH PART # 101 + hmin : 0.5503E-01 + hmax : 0.5503E+00 + +************ + + + + + + + + + t i e d n o d a l p a i r s f o r l i n k i n g + + + ************************************************************ + + + m a s s p r o p e r t i e s o f SPH p a r t # 101 + total mass of part = 0.27318476E-02 + x-coordinate of mass center = 0.92316645E+00 + y-coordinate of mass center =-0.10666248E+02 + z-coordinate of mass center = 0.00000000E+00 + + inertia tensor of material + row1= 0.1983E-03 0.3725E-08 0.0000E+00 + row2= 0.3725E-08 0.2448E-03 0.0000E+00 + row3= 0.0000E+00 0.0000E+00 0.4431E-03 + + ************************************************************ + + + m a s s p r o p e r t i e s o f p a r t # 1 + total mass of part = 0.53677346E-23 + x-coordinate of mass center = 0.00000000E+00 + y-coordinate of mass center =-0.57253590E-06 + z-coordinate of mass center = 0.00000000E+00 + + inertia tensor of material + row1= 0.6116E-21 0.0000E+00 0.0000E+00 + row2= 0.0000E+00 0.3463E-26 0.0000E+00 + row3= 0.0000E+00 0.0000E+00 0.6116E-21 + + principal inertias + i11 = 0.6116E-21 + i22 = 0.3463E-26 + i33 = 0.6116E-21 + + principal directions + row1= 0.1000E+01 0.0000E+00 0.0000E+00 + row2= 0.0000E+00 0.1000E+01 0.0000E+00 + row3= 0.0000E+00 0.0000E+00 0.1000E+01 + + ************************************************************ + + + m a s s p r o p e r t i e s o f b o d y + total mass of body = 0.27318473E-02 + x-coordinate of mass center = 0.92316651E+00 + y-coordinate of mass center =-0.10666249E+02 + z-coordinate of mass center = 0.00000000E+00 + + inertia tensor of body + row1= 0.1983E-03 0.1863E-08 0.0000E+00 + row2= 0.1863E-08 0.2448E-03 0.0000E+00 + row3= 0.0000E+00 0.0000E+00 0.4431E-03 + + principal inertias of body + i11 = 0.1983E-03 + i22 = 0.2448E-03 + i33 = 0.4431E-03 + + principal directions + row1= 0.1000E+01 0.4004E-04 0.0000E+00 + row2= -0.4004E-04 0.1000E+01 0.0000E+00 + row3= 0.0000E+00 0.0000E+00 0.1000E+01 + + ************************************************************ + + + ************************************************************ + + NOTE : For 2D axisymmetric problems the following + masses are reported per radian. + For 2D plain strain/stress problems the + masses are reported per unit thickness. + + summary of mass + lumped mass in deformable + part of structure mass= 0.00000000E+00 + part id = 101 mass= 0.27318476E-02 + part id = 1 mass= 0.53677342E-23 + + t o t a l m a s s = 0.27318476E-02 + x-coordinate of mass center = 0.92316651E+00 + y-coordinate of mass center =-0.10666249E+02 + z-coordinate of mass center = 0.00000000E+00 + + + + ************************************************************ + + + S t o r a g e a l l o c a t i o n + + Memory required to begin solution : 365K + Additional dynamically allocated memory: 419K + Total: 419K + + 25 smallest timesteps + ------------------------------------------------ + element number part timestep + sph 1002285 101 6.0802E-05 + sph 1002284 101 6.0802E-05 + sph 1002283 101 6.0802E-05 + sph 1002282 101 6.0802E-05 + sph 1002281 101 6.0802E-05 + sph 1002165 101 6.0802E-05 + sph 1002164 101 6.0802E-05 + sph 1002163 101 6.0802E-05 + sph 1002162 101 6.0802E-05 + sph 1002161 101 6.0802E-05 + sph 1002045 101 6.0802E-05 + sph 1002044 101 6.0802E-05 + sph 1002043 101 6.0802E-05 + sph 1002042 101 6.0802E-05 + sph 1002041 101 6.0802E-05 + sph 1001925 101 6.0802E-05 + sph 1001924 101 6.0802E-05 + sph 1001923 101 6.0802E-05 + sph 1001922 101 6.0802E-05 + sph 1001921 101 6.0802E-05 + sph 1001805 101 6.0802E-05 + sph 1001804 101 6.0802E-05 + sph 1001803 101 6.0802E-05 + sph 1001802 101 6.0802E-05 + sph 1001801 101 6.0802E-05 + 1 t 0.0000E+00 dt 6.08E-05 flush i/o buffers 08/31/25 16:54:10 + 1 t 0.0000E+00 dt 6.08E-05 write d3plot file 08/31/25 16:54:10 + 66 t 3.9521E-03 dt 6.08E-05 write d3plot file 08/31/25 16:54:10 + 132 t 7.9651E-03 dt 6.08E-05 write d3plot file 08/31/25 16:54:10 + 198 t 1.1982E-02 dt 6.08E-05 write d3plot file 08/31/25 16:54:10 + 264 t 1.5992E-02 dt 6.08E-05 write d3plot file 08/31/25 16:54:10 + 329 t 1.9947E-02 dt 6.08E-05 write d3plot file 08/31/25 16:54:10 + 395 t 2.3959E-02 dt 6.08E-05 write d3plot file 08/31/25 16:54:10 + 461 t 2.7972E-02 dt 6.08E-05 write d3plot file 08/31/25 16:54:10 + 527 t 3.1984E-02 dt 6.08E-05 write d3plot file 08/31/25 16:54:10 + + *** termination time reached *** + 576 t 3.5024E-02 dt 6.08E-05 write d3dump01 file 08/31/25 16:54:10 + 576 t 3.5024E-02 dt 6.08E-05 write d3plot file 08/31/25 16:54:10 + + N o r m a l t e r m i n a t i o n 08/31/25 16:54:10 + + S t o r a g e a l l o c a t i o n + + Memory required to complete solution : 365K + Additional dynamically allocated memory: 427K + Total: 427K + + T i m i n g i n f o r m a t i o n + CPU(seconds) %CPU Clock(seconds) %Clock + ---------------------------------------------------------------- + Keyword Processing ... 0.0000E+00 0.00 1.7000E-02 1.30 + KW Reading ......... 0.0000E+00 0.00 3.0000E-03 0.23 + KW Writing ......... 0.0000E+00 0.00 5.0000E-03 0.38 + Initialization ....... 1.0000E+00 100.00 1.2310E+00 94.11 + Init Proc Phase 1 .. 0.0000E+00 0.00 8.0000E-03 0.61 + Init Proc Phase 2 .. 0.0000E+00 0.00 5.0000E-03 0.38 + Element processing ... 0.0000E+00 0.00 1.3000E-02 0.99 + Shells ............. 0.0000E+00 0.00 1.0000E-03 0.08 + Binary databases ..... 0.0000E+00 0.00 2.0000E-03 0.15 + ASCII database ....... 0.0000E+00 0.00 2.4000E-02 1.83 + Rigid wall ........... 0.0000E+00 0.00 3.0000E-03 0.23 + Misc. 1 .............. 0.0000E+00 0.00 7.0000E-03 0.54 + Misc. 3 .............. 0.0000E+00 0.00 1.0000E-02 0.76 + Misc. 4 .............. 0.0000E+00 0.00 1.0000E-03 0.08 + ---------------------------------------------------------------- + T o t a l s 1.0000E+00 100.00 1.3080E+00 100.00 + + Problem time = 3.5024E-02 + Problem cycle = 576 + Total CPU time = 1 seconds ( 0 hours 0 minutes 1 seconds) + CPU time per zone cycle = 0.000 picoseconds + Clock time per zone cycle= 4006414.250 picoseconds + + Number of CPU's 2 + NLQ used/max 136/ 136 + Start time 08/31/2025 16:54:10 + End time 08/31/2025 16:54:10 + Elapsed time 0 second for 576 cycles using 2 SMP threads + ( 0 hour 0 minute 0 second ) + + N o r m a l t e r m i n a t i o n 08/31/25 16:54:10 diff --git a/test/test_data/sph_models/R9_3_1_Histvar=2/d3plot b/test/test_data/sph_models/R9_3_1_Histvar=2/d3plot new file mode 100644 index 0000000..8c24488 Binary files /dev/null and b/test/test_data/sph_models/R9_3_1_Histvar=2/d3plot differ diff --git a/test/test_data/sph_models/R9_3_1_Histvar=2/d3plot01 b/test/test_data/sph_models/R9_3_1_Histvar=2/d3plot01 new file mode 100644 index 0000000..7682f00 Binary files /dev/null and b/test/test_data/sph_models/R9_3_1_Histvar=2/d3plot01 differ diff --git a/test/test_data/sph_models/R9_3_1_Histvar=2/d3plot02 b/test/test_data/sph_models/R9_3_1_Histvar=2/d3plot02 new file mode 100644 index 0000000..6ec4971 Binary files /dev/null and b/test/test_data/sph_models/R9_3_1_Histvar=2/d3plot02 differ diff --git a/test/test_data/sph_models/R9_3_1_Histvar=2/sph_test.k b/test/test_data/sph_models/R9_3_1_Histvar=2/sph_test.k new file mode 100644 index 0000000..8fa6f32 --- /dev/null +++ b/test/test_data/sph_models/R9_3_1_Histvar=2/sph_test.k @@ -0,0 +1,143 @@ +*KEYWORD +*TITLE +$# title +SPH Unit Test +*CONTROL_CONTACT +$# slsfac rwpnal islchk shlthk penopt thkchg orien enmass + 0.0 0.0 1 0 1 0 1 0 +$# usrstr usrfrc nsbcs interm xpene ssthk ecdt tiedprj + 0 0 0 0 0.0 0 0 0 +*CONTROL_CPU +$# cputim iglst + 0.0 +*CONTROL_DAMPING +$# nrcyck drtol drfctr drterm tssfdr irelal edttl idrflg + 0 0.0 0.0 0.0 0.0 0 0.0 0 +*CONTROL_ENERGY +$# hgen rwen slnten rylen irgen maten drlen disen + 2 2 2 1 2 1 1 1 +*CONTROL_OUTPUT +$# npopt neecho nrefup iaccop opifs ipnint ikedit iflush + 0 0 0 0 0.0 0 100 5000 +*CONTROL_SPH +$# ncbs boxid dt idim nmneigh form start maxv + 0 0 0.0 2 0 0 0.0 0.0 +*CONTROL_TERMINATION +$# endtim endcyc dtmin endeng endmas nosol + 0.035 0 0.0 0.0 0.0 0 +*CONTROL_TIMESTEP +$# dtinit tssfac isdo tslimt dt2ms lctm erode ms1st + 0.0 0.9 0 0.0 0.0 0 0 0 +*DATABASE_GLSTAT +$# dt binary lcur ioopt +4.00000E-4 2 0 1 +*DATABASE_MATSUM +$# dt binary lcur ioopt +4.00000E-4 2 0 1 +*DATABASE_RCFORC +$# dt binary lcur ioopt +4.00000E-4 2 0 1 +*DATABASE_RWFORC +$# dt binary lcur ioopt +4.00000E-4 2 0 1 +*DATABASE_SLEOUT +$# dt binary lcur ioopt +4.00000E-4 2 0 1 +*DATABASE_BINARY_D3PLOT +$# dt lcdt beam npltc psetid + 0.004 0 0 0 0 +*DATABASE_EXTENT_BINARY +$# neiph neips maxint strflg sigflg epsflg rltflg engflg + 2 0 0 0 1 1 1 1 +$# cmpflg ieverp beamip dcomp shge stssz n3thdt ialemat + 0 0 0 1 1 1 2 1 +*MAT_PLASTIC_KINEMATIC +$# mid ro e pr sigy etan beta + 1 0.00271 68900.0 0.33 117.0 6.8 1.0 +$# src srp fs vp + 0.0 0.0 0.0 0.0 +*MAT_PLASTIC_KINEMATIC +$# mid ro e pr sigy etan beta + 2 0.00271 68900.0 0.33 117.0 6.8 1.0 +$# src srp fs vp + 0.0 0.0 0.0 0.0 +*INITIAL_VELOCITY +$# nsid nsidex boxid irigid icid + 0 0 0 0 0 +$# vx vy vz vxr vyr vzr + -50.0 0.0 0.0 0.0 0.0 0.0 +*PART +$# title + +$# pid secid mid eosid hgid grav adpopt tmid + 101 101 1 0 0 0 0 0 +*SECTION_SPH +$# secid cslh hmin hmax sphini death start sphkern + 101 1.3 0.0 0.0 0.0 0.0 0.0 0 +*RIGIDWALL_PLANAR_ID +$# id title + 1 +$# nsid nsidex boxid offset birth death rwksf + 0 0 0 0.0 0.01.00000E20 1.0 +$# xt yt zt xh yh zh fric wvel + 0.0 0.0 0.0 1.0 0.0 0.0 0.0 0.0 +*SET_NODE_LIST_GENERATE +$# sid da1 da2 da3 da4 solver its - + 101 0.0 0.0 0.0 0.0MECH 1 +$# b1beg b1end b2beg b2end b3beg b3end b4beg b4end + 1000001 1004800 0 0 0 0 0 0 +*NODE +$# nid x y z tc rc + 1001801 0.4998333 -11.04725 0.0 0 0 + 1001802 0.7115 -11.04725 0.0 0 0 + 1001803 0.9231666 -11.04725 0.0 0 0 + 1001804 1.134833 -11.04725 0.0 0 0 + 1001805 1.3465 -11.04725 0.0 0 0 + 1001921 0.4998333 -10.85675 0.0 0 0 + 1001922 0.7115 -10.85675 0.0 0 0 + 1001923 0.9231666 -10.85675 0.0 0 0 + 1001924 1.134833 -10.85675 0.0 0 0 + 1001925 1.3465 -10.85675 0.0 0 0 + 1002041 0.4998333 -10.66625 0.0 0 0 + 1002042 0.7115 -10.66625 0.0 0 0 + 1002043 0.9231666 -10.66625 0.0 0 0 + 1002044 1.134833 -10.66625 0.0 0 0 + 1002045 1.3465 -10.66625 0.0 0 0 + 1002161 0.4998333 -10.47575 0.0 0 0 + 1002162 0.7115 -10.47575 0.0 0 0 + 1002163 0.9231666 -10.47575 0.0 0 0 + 1002164 1.134833 -10.47575 0.0 0 0 + 1002165 1.3465 -10.47575 0.0 0 0 + 1002281 0.4998333 -10.28525 0.0 0 0 + 1002282 0.7115 -10.28525 0.0 0 0 + 1002283 0.9231666 -10.28525 0.0 0 0 + 1002284 1.134833 -10.28525 0.0 0 0 + 1002285 1.3465 -10.28525 0.0 0 0 +*ELEMENT_SPH +$# nid pid mass nend + 1001801 101 1.092736e-04 0 + 1001802 101 1.092736e-04 0 + 1001803 101 1.092736e-04 0 + 1001804 101 1.092736e-04 0 + 1001805 101 1.092735e-04 0 + 1001921 101 1.092741e-04 0 + 1001922 101 1.092741e-04 0 + 1001923 101 1.092741e-04 0 + 1001924 101 1.092741e-04 0 + 1001925 101 1.092741e-04 0 + 1002041 101 1.092741e-04 0 + 1002042 101 1.092741e-04 0 + 1002043 101 1.092741e-04 0 + 1002044 101 1.092741e-04 0 + 1002045 101 1.092741e-04 0 + 1002161 101 1.092741e-04 0 + 1002162 101 1.092741e-04 0 + 1002163 101 1.092741e-04 0 + 1002164 101 1.092741e-04 0 + 1002165 101 1.092741e-04 0 + 1002281 101 1.092736e-04 0 + 1002282 101 1.092736e-04 0 + 1002283 101 1.092736e-04 0 + 1002284 101 1.092736e-04 0 + 1002285 101 1.092735e-04 0 +*END diff --git a/test/unit_tests/dyna/test_d3plot.py b/test/unit_tests/dyna/test_d3plot.py index f81ad32..7b6d118 100644 --- a/test/unit_tests/dyna/test_d3plot.py +++ b/test/unit_tests/dyna/test_d3plot.py @@ -453,3 +453,94 @@ def test_reading_selected_states(self): node_disp = d3plot.arrays[ArrayType.node_displacement][:, node_index] np.testing.assert_allclose(node_disp, disp_node_real, rtol=1e-4) + + def test_read_sph_across_versions(self): + """Tests to parsing across several Dyna versions and history variables + + R7.1.2: 11 positions in header data, isphfg(9) = 6 (strains only) + R9.3.1: 10 or 11 positions in header data, isphfg(9) = 6 (strains only) + R12.2.1: 10 or 11 positions of header data, isphfg(9) = 12 (strians and strain + rate) + + All tests data has 25 nodes and 10 states + """ + n_states = 10 + n_nodes = 25 + + # Test R7.1.2 + # Old database version, with no additonal history variables + filepath = "test/test_data/sph_models/R7_1_2/d3plot" + + d3plot = D3plot(filepath) + + mass_array = d3plot.arrays["sph_mass"] + strain_array = d3plot.arrays["sph_strain"] + + np.testing.assert_equal(mass_array.shape, [n_states, n_nodes]) + np.testing.assert_equal(strain_array.shape, [n_states, n_nodes, 6]) + self.assertTrue("sph_strainrate" not in d3plot.arrays.keys()) + + # Test R7.1.2 with history variables + # Old database version, with 2 additonal history variables (NEIPHS) + filepath = "test/test_data/sph_models/R7_1_2_Histvar=2/d3plot" + + d3plot = D3plot(filepath) + + mass_array = d3plot.arrays["sph_mass"] + strain_array = d3plot.arrays["sph_strain"] + self.assertTrue("sph_strainrate" not in d3plot.arrays.keys()) + + np.testing.assert_equal(mass_array.shape, [n_states, n_nodes]) + np.testing.assert_equal(strain_array.shape, [n_states, n_nodes, 6]) + + # Test R9.3.1 + # New database version, with no additonal history variables + filepath = "test/test_data/sph_models/R9_3_1/d3plot" + + d3plot = D3plot(filepath) + + mass_array = d3plot.arrays["sph_mass"] + strain_array = d3plot.arrays["sph_strain"] + + np.testing.assert_equal(mass_array.shape, [n_states, n_nodes]) + np.testing.assert_equal(strain_array.shape, [n_states, n_nodes, 6]) + self.assertTrue("sph_strainrate" not in d3plot.arrays.keys()) + + # Test R9.3.1 with history variables + # New database version with 2 additonal history variables (NEIPHS) + filepath = "test/test_data/sph_models/R9_3_1_Histvar=2/d3plot" + + d3plot = D3plot(filepath) + + mass_array = d3plot.arrays["sph_mass"] + strain_array = d3plot.arrays["sph_strain"] + + np.testing.assert_equal(mass_array.shape, [n_states, n_nodes]) + np.testing.assert_equal(strain_array.shape, [n_states, n_nodes, 6]) + self.assertTrue("sph_strainrate" not in d3plot.arrays.keys()) + + # Test R12.21 + # New database version, with no additonal history variables + filepath = "test/test_data/sph_models/R12_2_1/d3plot" + + d3plot = D3plot(filepath) + + mass_array = d3plot.arrays["sph_mass"] + strain_array = d3plot.arrays["sph_strain"] + + np.testing.assert_equal(mass_array.shape, [n_states, n_nodes]) + np.testing.assert_equal(strain_array.shape, [n_states, n_nodes, 6]) + self.assertTrue("sph_strainrate" in d3plot.arrays.keys()) + + # Test R12.21 with history variables + # New database version with 2 additonal history variables (NEIPHS) + filepath = "test/test_data/sph_models/R12_2_1_Histvar=2/d3plot" + + d3plot = D3plot(filepath) + + mass_array = d3plot.arrays["sph_mass"] + strain_array = d3plot.arrays["sph_strain"] + + np.testing.assert_equal(mass_array.shape, [n_states, n_nodes]) + np.testing.assert_equal(strain_array.shape, [n_states, n_nodes, 6]) + self.assertTrue("sph_strainrate" in d3plot.arrays.keys())