PROCESSING PART, INSTANCE, AND ASSEMBLY INFORMATION ******************************************************* END PROCESSING PART, INSTANCE, AND ASSEMBLY INFORMATION *********************************************************** OPTIONS BEING PROCESSED *************************** *Heading *Node *Element, type=C3D8 *Nset, nset=ASSEMBLY_IN1_HEAD_FORCE_INTRO_GEOSET_HEAD_FORCE_INTRO *Elset, elset=ASSEMBLY_IN1_HEAD_FORCE_INTRO_GEOSET_HEAD_FORCE_INTRO *Node *Element, type=C3D8 *Nset, nset=ASSEMBLY_IN2_HEAD_FIXED_SIDE_GEOSET_HEAD_FIXED_SIDE *Elset, elset=ASSEMBLY_IN2_HEAD_FIXED_SIDE_GEOSET_HEAD_FIXED_SIDE *Node *Element, type=C3D8 *Element, type=SC8R *Nset, nset=ASSEMBLY_IN7_COMP_CORE_SWEEP_GEOSET_AL_CORE *Nset, nset=ASSEMBLY_IN7_COMP_CORE_SWEEP_GEOSET_COMP_LAYUP *Elset, elset=ASSEMBLY_IN7_COMP_CORE_SWEEP_GEOSET_AL_CORE *Elset, elset=ASSEMBLY_IN7_COMP_CORE_SWEEP_GEOSET_COMP_LAYUP *Elset, elset=ASSEMBLY_IN7_COMP_CORE_SWEEP_TRIAX_COMP_LAYUP_APM30-1 *Elset, elset=ASSEMBLY_IN7_COMP_CORE_SWEEP__INNER_SURFACE_COMPOSITE_LAYUP_S2 *Elset, elset=ASSEMBLY_IN7_COMP_CORE_SWEEP__OUTER_SURFACE_AL_CORE_S2 *Node *Element, type=SPRINGA *Nset, nset=ASSEMBLY_GEOSET_BEARING1 *Nset, nset=ASSEMBLY_GEOSET_BEARING2 *Nset, nset=ASSEMBLY_GEOSET_HOLE_FIXED_SIDE *Nset, nset=ASSEMBLY_GEOSET_HOLE_FORCE_INTRO *Nset, nset=ASSEMBLY_GEOSET_RP_BEARING1 *Nset, nset=ASSEMBLY_GEOSET_RP_BEARING1_SPRING_X *Nset, nset=ASSEMBLY_GEOSET_RP_BEARING1_SPRING_Z *Nset, nset=ASSEMBLY_GEOSET_RP_BEARING2 *Nset, nset=ASSEMBLY_GEOSET_RP_BEARING2_SPRING_X *Nset, nset=ASSEMBLY_GEOSET_RP_BEARING2_SPRING_Z *Nset, nset=ASSEMBLY_GEOSET_RP_FIXED_SIDE *Nset, nset=ASSEMBLY_GEOSET_RP_FORCE_INTRO *Nset, nset=ASSEMBLY_NODE_COMPLAYUP_FLANGE_FIXED_SIDE *Nset, nset=ASSEMBLY_NODE_COMPLAYUP_FLANGE_FORCE_INTRO *Nset, nset=ASSEMBLY_NODE_HEAD_FLANGE_FIXED_SIDE *Nset, nset=ASSEMBLY_NODE_HEAD_FLANGE_FORCE_INTRO *Nset, nset=ASSEMBLY__T-DCSYS_ORIGIN3 *Elset, elset=ASSEMBLY_GEOSET_BEARING1 *Elset, elset=ASSEMBLY_GEOSET_BEARING2 *Elset, elset=ASSEMBLY_GEOSET_HOLE_FIXED_SIDE *Elset, elset=ASSEMBLY_GEOSET_HOLE_FORCE_INTRO *Elset, elset=ASSEMBLY_SPRINGS_BEARING1-SPRING *Elset, elset=ASSEMBLY_SPRINGS_BEARING2-SPRING *Elset, elset=ASSEMBLY__SURF_COMP_LAYUP_FLANGE_FIXED_SIDE_S3 *Elset, elset=ASSEMBLY__SURF_COMP_LAYUP_FLANGE_FORCE_INTRO_S3 *Elset, elset=ASSEMBLY__SURF_HEAD_FLANGE_FIXED_SIDE_S3 *Elset, elset=ASSEMBLY__SURF_HEAD_FLANGE_FIXED_SIDE_S4 *Elset, elset=ASSEMBLY__SURF_HEAD_FLANGE_FORCE_INTRO_S3 *Elset, elset=ASSEMBLY__SURF_HEAD_FLANGE_FORCE_INTRO_S4 *Elset, elset=ASSEMBLY___T1_IN7_COMP_CORE_SWEEP_M_S5 *Elset, elset=ASSEMBLY___T1_IN7_COMP_CORE_SWEEP_S_S5 *distribution, name=ASSEMBLY_IN7_COMP_CORE_SWEEP_ORI-1-DISCORIENT, location=ELEMENT, table=ORI-1-DISCORIENT_TABLE *rigidbody, refnode=ASSEMBLY_GEOSET_RP_BEARING1, tienset=ASSEMBLY_GEOSET_BEARING1 *rigidbody, refnode=ASSEMBLY_GEOSET_RP_BEARING2, tienset=ASSEMBLY_GEOSET_BEARING2 *rigidbody, refnode=ASSEMBLY_GEOSET_RP_FIXED_SIDE, tienset=ASSEMBLY_GEOSET_HOLE_FIXED_SIDE *rigidbody, refnode=ASSEMBLY_GEOSET_RP_FORCE_INTRO, tienset=ASSEMBLY_GEOSET_HOLE_FORCE_INTRO *tie, name=ASSEMBLY__T1_IN7_COMP_CORE_SWEEP, adjust=NO *tie, name=ASSEMBLY_CONSTRAINT-TIE_FIXED_SIDE, positiontolerance=45, adjust=NO *tie, name=ASSEMBLY_CONSTRAINT-TIE_FORCE_INTRO, positiontolerance=45, adjust=NO *surface, type=ELEMENT, name=ASSEMBLY_IN7_COMP_CORE_SWEEP_OUTER_SURFACE_AL_CORE *surface, type=ELEMENT, name=ASSEMBLY_IN7_COMP_CORE_SWEEP_INNER_SURFACE_COMPOSITE_LAYUP *surface, type=ELEMENT, name=ASSEMBLY_SURF_COMP_LAYUP_FLANGE_FIXED_SIDE *surface, type=ELEMENT, name=ASSEMBLY_SURF_COMP_LAYUP_FLANGE_FORCE_INTRO *surface, type=ELEMENT, name=ASSEMBLY_SURF_HEAD_FLANGE_FIXED_SIDE *surface, type=ELEMENT, name=ASSEMBLY_SURF_HEAD_FLANGE_FORCE_INTRO *surface, type=NODE, name=ASSEMBLY_NODE_HEAD_FLANGE_FIXED_SIDE_CNS_ *surface, type=NODE, name=ASSEMBLY_NODE_COMPLAYUP_FLANGE_FIXED_SIDE_CNS_ *surface, type=NODE, name=ASSEMBLY_NODE_HEAD_FLANGE_FORCE_INTRO_CNS_ *surface, type=NODE, name=ASSEMBLY_NODE_COMPLAYUP_FLANGE_FORCE_INTRO_CNS_ *surface, type=ELEMENT, name=ASSEMBLY__T1_IN7_COMP_CORE_SWEEP_M *surface, type=ELEMENT, name=ASSEMBLY__T1_IN7_COMP_CORE_SWEEP_S *rigidbody, refnode=ASSEMBLY_GEOSET_RP_BEARING1, tienset=ASSEMBLY_GEOSET_BEARING1 *rigidbody, refnode=ASSEMBLY_GEOSET_RP_BEARING2, tienset=ASSEMBLY_GEOSET_BEARING2 *rigidbody, refnode=ASSEMBLY_GEOSET_RP_FIXED_SIDE, tienset=ASSEMBLY_GEOSET_HOLE_FIXED_SIDE *rigidbody, refnode=ASSEMBLY_GEOSET_RP_FORCE_INTRO, tienset=ASSEMBLY_GEOSET_HOLE_FORCE_INTRO *rigidbody, refnode=ASSEMBLY_GEOSET_RP_BEARING1, tienset=ASSEMBLY_GEOSET_BEARING1 *rigidbody, refnode=ASSEMBLY_GEOSET_RP_BEARING2, tienset=ASSEMBLY_GEOSET_BEARING2 *rigidbody, refnode=ASSEMBLY_GEOSET_RP_FIXED_SIDE, tienset=ASSEMBLY_GEOSET_HOLE_FIXED_SIDE *rigidbody, refnode=ASSEMBLY_GEOSET_RP_FORCE_INTRO, tienset=ASSEMBLY_GEOSET_HOLE_FORCE_INTRO *rigidbody, refnode=ASSEMBLY_GEOSET_RP_BEARING1, tienset=ASSEMBLY_GEOSET_BEARING1 *rigidbody, refnode=ASSEMBLY_GEOSET_RP_BEARING2, tienset=ASSEMBLY_GEOSET_BEARING2 *rigidbody, refnode=ASSEMBLY_GEOSET_RP_FIXED_SIDE, tienset=ASSEMBLY_GEOSET_HOLE_FIXED_SIDE *rigidbody, refnode=ASSEMBLY_GEOSET_RP_FORCE_INTRO, tienset=ASSEMBLY_GEOSET_HOLE_FORCE_INTRO *tie, name=ASSEMBLY__T1_IN7_COMP_CORE_SWEEP, adjust=NO *tie, name=ASSEMBLY_CONSTRAINT-TIE_FIXED_SIDE, positiontolerance=45, adjust=NO *tie, name=ASSEMBLY_CONSTRAINT-TIE_FORCE_INTRO, positiontolerance=45, adjust=NO *surface, type=ELEMENT, name=ASSEMBLY_IN7_COMP_CORE_SWEEP_OUTER_SURFACE_AL_CORE *surface, type=ELEMENT, name=ASSEMBLY_IN7_COMP_CORE_SWEEP_INNER_SURFACE_COMPOSITE_LAYUP *surface, type=ELEMENT, name=ASSEMBLY_SURF_COMP_LAYUP_FLANGE_FIXED_SIDE *surface, type=ELEMENT, name=ASSEMBLY_SURF_COMP_LAYUP_FLANGE_FORCE_INTRO *surface, type=ELEMENT, name=ASSEMBLY_SURF_HEAD_FLANGE_FIXED_SIDE *surface, type=ELEMENT, name=ASSEMBLY_SURF_HEAD_FLANGE_FORCE_INTRO *surface, type=NODE, name=ASSEMBLY_NODE_HEAD_FLANGE_FIXED_SIDE_CNS_ *surface, type=NODE, name=ASSEMBLY_NODE_COMPLAYUP_FLANGE_FIXED_SIDE_CNS_ *surface, type=NODE, name=ASSEMBLY_NODE_HEAD_FLANGE_FORCE_INTRO_CNS_ *surface, type=NODE, name=ASSEMBLY_NODE_COMPLAYUP_FLANGE_FORCE_INTRO_CNS_ *surface, type=ELEMENT, name=ASSEMBLY__T1_IN7_COMP_CORE_SWEEP_M *surface, type=ELEMENT, name=ASSEMBLY__T1_IN7_COMP_CORE_SWEEP_S *surface, type=ELEMENT, name=ASSEMBLY_IN7_COMP_CORE_SWEEP_OUTER_SURFACE_AL_CORE *surface, type=ELEMENT, name=ASSEMBLY_IN7_COMP_CORE_SWEEP_INNER_SURFACE_COMPOSITE_LAYUP *surface, type=ELEMENT, name=ASSEMBLY_SURF_COMP_LAYUP_FLANGE_FIXED_SIDE *surface, type=ELEMENT, name=ASSEMBLY_SURF_COMP_LAYUP_FLANGE_FORCE_INTRO *surface, type=ELEMENT, name=ASSEMBLY_SURF_HEAD_FLANGE_FIXED_SIDE *surface, type=ELEMENT, name=ASSEMBLY_SURF_HEAD_FLANGE_FORCE_INTRO *surface, type=NODE, name=ASSEMBLY_NODE_HEAD_FLANGE_FIXED_SIDE_CNS_ *surface, type=NODE, name=ASSEMBLY_NODE_COMPLAYUP_FLANGE_FIXED_SIDE_CNS_ *surface, type=NODE, name=ASSEMBLY_NODE_HEAD_FLANGE_FORCE_INTRO_CNS_ *surface, type=NODE, name=ASSEMBLY_NODE_COMPLAYUP_FLANGE_FORCE_INTRO_CNS_ *surface, type=ELEMENT, name=ASSEMBLY__T1_IN7_COMP_CORE_SWEEP_M *surface, type=ELEMENT, name=ASSEMBLY__T1_IN7_COMP_CORE_SWEEP_S *tie, name=ASSEMBLY__T1_IN7_COMP_CORE_SWEEP, adjust=NO *tie, name=ASSEMBLY_CONSTRAINT-TIE_FIXED_SIDE, positiontolerance=45, adjust=NO *tie, name=ASSEMBLY_CONSTRAINT-TIE_FORCE_INTRO, positiontolerance=45, adjust=NO *rigidbody, refnode=ASSEMBLY_GEOSET_RP_BEARING1, tienset=ASSEMBLY_GEOSET_BEARING1 *rigidbody, refnode=ASSEMBLY_GEOSET_RP_BEARING2, tienset=ASSEMBLY_GEOSET_BEARING2 *rigidbody, refnode=ASSEMBLY_GEOSET_RP_FIXED_SIDE, tienset=ASSEMBLY_GEOSET_HOLE_FIXED_SIDE *rigidbody, refnode=ASSEMBLY_GEOSET_RP_FORCE_INTRO, tienset=ASSEMBLY_GEOSET_HOLE_FORCE_INTRO *tie, name=ASSEMBLY__T1_IN7_COMP_CORE_SWEEP, adjust=NO *tie, name=ASSEMBLY_CONSTRAINT-TIE_FIXED_SIDE, positiontolerance=45, adjust=NO *tie, name=ASSEMBLY_CONSTRAINT-TIE_FORCE_INTRO, positiontolerance=45, adjust=NO *orientation, name=ASSEMBLY_IN7_COMP_CORE_SWEEP_ORI-1, system=RECTANGULAR *shellsection, elset=ASSEMBLY_IN7_COMP_CORE_SWEEP_TRIAX_COMP_LAYUP_APM30-1, layup=TRIAX_COMP_LAYUP_APM30, composite, *solidsection, elset=ASSEMBLY_IN1_HEAD_FORCE_INTRO_GEOSET_HEAD_FORCE_INTRO, material=STEEL *solidsection, elset=ASSEMBLY_IN2_HEAD_FIXED_SIDE_GEOSET_HEAD_FIXED_SIDE, material=STEEL *solidsection, elset=ASSEMBLY_IN7_COMP_CORE_SWEEP_GEOSET_AL_CORE, material=ALUMINUM *material, name=ALUMINUM *elastic *material, name=SCHUBERT_TENAX_HTS40_F13_12K_800_60_MM *elastic, type=LAMINA *material, name=STEEL *elastic *spring, elset=ASSEMBLY_SPRINGS_BEARING1-SPRING *spring, elset=ASSEMBLY_SPRINGS_BEARING2-SPRING *orientation, name=ASSEMBLY_IN7_COMP_CORE_SWEEP_ORI-1, system=RECTANGULAR *solidsection, elset=ASSEMBLY_IN1_HEAD_FORCE_INTRO_GEOSET_HEAD_FORCE_INTRO, material=STEEL *solidsection, elset=ASSEMBLY_IN2_HEAD_FIXED_SIDE_GEOSET_HEAD_FIXED_SIDE, material=STEEL *solidsection, elset=ASSEMBLY_IN7_COMP_CORE_SWEEP_GEOSET_AL_CORE, material=ALUMINUM *shellsection, elset=ASSEMBLY_IN7_COMP_CORE_SWEEP_TRIAX_COMP_LAYUP_APM30-1, layup=TRIAX_COMP_LAYUP_APM30, composite, *rigidbody, refnode=ASSEMBLY_GEOSET_RP_BEARING1, tienset=ASSEMBLY_GEOSET_BEARING1 *rigidbody, refnode=ASSEMBLY_GEOSET_RP_BEARING2, tienset=ASSEMBLY_GEOSET_BEARING2 *rigidbody, refnode=ASSEMBLY_GEOSET_RP_FIXED_SIDE, tienset=ASSEMBLY_GEOSET_HOLE_FIXED_SIDE *rigidbody, refnode=ASSEMBLY_GEOSET_RP_FORCE_INTRO, tienset=ASSEMBLY_GEOSET_HOLE_FORCE_INTRO *rigidbody, refnode=ASSEMBLY_GEOSET_RP_BEARING1, tienset=ASSEMBLY_GEOSET_BEARING1 *rigidbody, refnode=ASSEMBLY_GEOSET_RP_BEARING2, tienset=ASSEMBLY_GEOSET_BEARING2 *rigidbody, refnode=ASSEMBLY_GEOSET_RP_FIXED_SIDE, tienset=ASSEMBLY_GEOSET_HOLE_FIXED_SIDE *rigidbody, refnode=ASSEMBLY_GEOSET_RP_FORCE_INTRO, tienset=ASSEMBLY_GEOSET_HOLE_FORCE_INTRO *transform, nset=ASSEMBLY__T-DCSYS_ORIGIN3 *boundary *boundary *boundary *boundary *boundary *tie, name=ASSEMBLY__T1_IN7_COMP_CORE_SWEEP, adjust=NO ***WARNING: IF SIGNIFICANT CLEARANCE/OVERCLOSURE EXISTS BETWEEN SURFACE PAIR (ASSEMBLY__T1_IN7_COMP_CORE_SWEEP_S,ASSEMBLY__T1_IN7_COMP_CORE_SWEE P_M) AND THE MASTER SURFACE DOES NOT HAVE ROTATIONAL DEGREES OF FREEDOM, ADJUSTMENT IS RECOMMENDED FOR CORRECT ENFORCEMENT OF THE TIE CONSTRAINT *tie, name=ASSEMBLY_CONSTRAINT-TIE_FIXED_SIDE, positiontolerance=45, adjust=NO ***WARNING: SLAVE SURFACE ASSEMBLY_NODE_COMPLAYUP_FLANGE_FIXED_SIDE_CNS_ IS A NODE-BASED SURFACE USED WITH SURFACE TO SURFACE APPROACH. IN ORDER TO OBTAIN IMPROVED STRESS ACCURACY WITH THIS APPROACH, AN ELEMENT-BASED SURFACE SHOULD BE USED INSTEAD. ***WARNING: IF SIGNIFICANT CLEARANCE/OVERCLOSURE EXISTS BETWEEN SURFACE PAIR (ASSEMBLY_NODE_COMPLAYUP_FLANGE_FIXED_SIDE_CNS_,ASSEMBLY_NODE_HEAD_ FLANGE_FIXED_SIDE_CNS_) AND THE MASTER SURFACE DOES NOT HAVE ROTATIONAL DEGREES OF FREEDOM, ADJUSTMENT IS RECOMMENDED FOR CORRECT ENFORCEMENT OF THE TIE CONSTRAINT *tie, name=ASSEMBLY_CONSTRAINT-TIE_FORCE_INTRO, positiontolerance=45, adjust=NO ***WARNING: SLAVE SURFACE ASSEMBLY_NODE_COMPLAYUP_FLANGE_FORCE_INTRO_CNS_ IS A NODE-BASED SURFACE USED WITH SURFACE TO SURFACE APPROACH. IN ORDER TO OBTAIN IMPROVED STRESS ACCURACY WITH THIS APPROACH, AN ELEMENT-BASED SURFACE SHOULD BE USED INSTEAD. ***WARNING: IF SIGNIFICANT CLEARANCE/OVERCLOSURE EXISTS BETWEEN SURFACE PAIR (ASSEMBLY_NODE_COMPLAYUP_FLANGE_FORCE_INTRO_CNS_,ASSEMBLY_NODE_HEAD _FLANGE_FORCE_INTRO_CNS_) AND THE MASTER SURFACE DOES NOT HAVE ROTATIONAL DEGREES OF FREEDOM, ADJUSTMENT IS RECOMMENDED FOR CORRECT ENFORCEMENT OF THE TIE CONSTRAINT *tie, name=ASSEMBLY__T1_IN7_COMP_CORE_SWEEP, adjust=NO *tie, name=ASSEMBLY_CONSTRAINT-TIE_FIXED_SIDE, positiontolerance=45, adjust=NO *tie, name=ASSEMBLY_CONSTRAINT-TIE_FORCE_INTRO, positiontolerance=45, adjust=NO *tie, name=ASSEMBLY__T1_IN7_COMP_CORE_SWEEP, adjust=NO *tie, name=ASSEMBLY_CONSTRAINT-TIE_FIXED_SIDE, positiontolerance=45, adjust=NO *tie, name=ASSEMBLY_CONSTRAINT-TIE_FORCE_INTRO, positiontolerance=45, adjust=NO *solidsection, elset=ASSEMBLY_IN1_HEAD_FORCE_INTRO_GEOSET_HEAD_FORCE_INTRO, material=STEEL *solidsection, elset=ASSEMBLY_IN2_HEAD_FIXED_SIDE_GEOSET_HEAD_FIXED_SIDE, material=STEEL *solidsection, elset=ASSEMBLY_IN7_COMP_CORE_SWEEP_GEOSET_AL_CORE, material=ALUMINUM *shellsection, elset=ASSEMBLY_IN7_COMP_CORE_SWEEP_TRIAX_COMP_LAYUP_APM30-1, layup=TRIAX_COMP_LAYUP_APM30, composite, *spring, elset=ASSEMBLY_SPRINGS_BEARING1-SPRING *spring, elset=ASSEMBLY_SPRINGS_BEARING2-SPRING *rigidbody, refnode=ASSEMBLY_GEOSET_RP_BEARING1, tienset=ASSEMBLY_GEOSET_BEARING1 *rigidbody, refnode=ASSEMBLY_GEOSET_RP_BEARING2, tienset=ASSEMBLY_GEOSET_BEARING2 *rigidbody, refnode=ASSEMBLY_GEOSET_RP_FIXED_SIDE, tienset=ASSEMBLY_GEOSET_HOLE_FIXED_SIDE *rigidbody, refnode=ASSEMBLY_GEOSET_RP_FORCE_INTRO, tienset=ASSEMBLY_GEOSET_HOLE_FORCE_INTRO *surface, type=ELEMENT, name=ASSEMBLY_IN7_COMP_CORE_SWEEP_OUTER_SURFACE_AL_CORE *surface, type=ELEMENT, name=ASSEMBLY_IN7_COMP_CORE_SWEEP_INNER_SURFACE_COMPOSITE_LAYUP *surface, type=ELEMENT, name=ASSEMBLY_SURF_COMP_LAYUP_FLANGE_FIXED_SIDE *surface, type=ELEMENT, name=ASSEMBLY_SURF_COMP_LAYUP_FLANGE_FORCE_INTRO *surface, type=ELEMENT, name=ASSEMBLY_SURF_HEAD_FLANGE_FIXED_SIDE *surface, type=ELEMENT, name=ASSEMBLY_SURF_HEAD_FLANGE_FORCE_INTRO *surface, type=NODE, name=ASSEMBLY_NODE_HEAD_FLANGE_FIXED_SIDE_CNS_ *surface, type=NODE, name=ASSEMBLY_NODE_COMPLAYUP_FLANGE_FIXED_SIDE_CNS_ *surface, type=NODE, name=ASSEMBLY_NODE_HEAD_FLANGE_FORCE_INTRO_CNS_ *surface, type=NODE, name=ASSEMBLY_NODE_COMPLAYUP_FLANGE_FORCE_INTRO_CNS_ *surface, type=ELEMENT, name=ASSEMBLY__T1_IN7_COMP_CORE_SWEEP_M *surface, type=ELEMENT, name=ASSEMBLY__T1_IN7_COMP_CORE_SWEEP_S *tie, name=ASSEMBLY__T1_IN7_COMP_CORE_SWEEP, adjust=NO *tie, name=ASSEMBLY_CONSTRAINT-TIE_FIXED_SIDE, positiontolerance=45, adjust=NO *tie, name=ASSEMBLY_CONSTRAINT-TIE_FORCE_INTRO, positiontolerance=45, adjust=NO *output, field, variable=PRESELECT *output, history, variable=PRESELECT *output, field, variable=PRESELECT *output, history, variable=PRESELECT *output, field, variable=PRESELECT *output, history, variable=PRESELECT *rigidbody, refnode=ASSEMBLY_GEOSET_RP_BEARING1, tienset=ASSEMBLY_GEOSET_BEARING1 *rigidbody, refnode=ASSEMBLY_GEOSET_RP_BEARING2, tienset=ASSEMBLY_GEOSET_BEARING2 *rigidbody, refnode=ASSEMBLY_GEOSET_RP_FIXED_SIDE, tienset=ASSEMBLY_GEOSET_HOLE_FIXED_SIDE *rigidbody, refnode=ASSEMBLY_GEOSET_RP_FORCE_INTRO, tienset=ASSEMBLY_GEOSET_HOLE_FORCE_INTRO *Step, name=Step_DEFORMATION, nlgeom=NO *output, field, variable=PRESELECT *output, history, variable=PRESELECT *Step, name=Step_DEFORMATION, nlgeom=NO *Step, name=Step_DEFORMATION, nlgeom=NO *static *boundary *boundary *boundary *boundary *boundary *output, field, variable=PRESELECT *output, history, variable=PRESELECT *endstep *Step, name=Step_DEFORMATION, nlgeom=NO *static *boundary *boundary *boundary *boundary *boundary *cload *endstep P R O B L E M S I Z E NUMBER OF ELEMENTS IS 68021 NUMBER OF ELEMENTS DEFINED BY THE USER AND *TIE 68019 NUMBER OF NODES IS 85404 NUMBER OF NODES DEFINED BY THE USER 85404 TOTAL NUMBER OF VARIABLES IN THE MODEL 259716 (DEGREES OF FREEDOM PLUS MAX NO. OF ANY LAGRANGE MULTIPLIER VARIABLES. INCLUDE *PRINT,SOLVE=YES TO GET THE ACTUAL NUMBER.) END OF USER INPUT PROCESSING JOB TIME SUMMARY USER TIME (SEC) = 9.1000 SYSTEM TIME (SEC) = 0.90000 TOTAL CPU TIME (SEC) = 10.000 WALLCLOCK TIME (SEC) = 11 1 Abaqus 6.13-2 Date 10-Dez-2013 Time 12:19:29 For use at under license from Dassault Systemes or its subsidiary. STEP 1 INCREMENT 1 TIME COMPLETED IN THIS STEP 0.00 S T E P 1 S T A T I C A N A L Y S I S AUTOMATIC TIME CONTROL WITH - A SUGGESTED INITIAL TIME INCREMENT OF 1.00 AND A TOTAL TIME PERIOD OF 1.00 THE MINIMUM TIME INCREMENT ALLOWED IS 1.000E-05 THE MAXIMUM TIME INCREMENT ALLOWED IS 1.00 LINEAR EQUATION SOLVER TYPE DIRECT SPARSE M E M O R Y E S T I M A T E PROCESS FLOATING PT MINIMUM MEMORY MEMORY TO OPERATIONS REQUIRED MINIMIZE I/O PER ITERATION (MBYTES) (MBYTES) 1 8.38E+010 183 1834 NOTE: (1) SINCE ABAQUS DOES NOT PRE-ALLOCATE MEMORY AND ONLY ALLOCATES MEMORY AS NEEDED DURING THE ANALYSIS, THE MEMORY REQUIREMENT PRINTED HERE CAN ONLY BE VIEWED AS A GENERAL GUIDELINE BASED ON THE BEST KNOWLEDGE AVAILABLE AT THE BEGINNING OF A STEP BEFORE THE SOLUTION PROCESS HAS BEGUN. (2) THE ESTIMATE IS NORMALLY UPDATED AT THE BEGINNING OF EVERY STEP. IT IS THE MAXIMUM VALUE OF THE ESTIMATE FROM THE CURRENT STEP TO THE LAST STEP OF THE ANALYSIS, WITH UNSYMMETRIC SOLUTION TAKEN INTO ACCOUNT IF APPLICABLE. (3) SINCE THE ESTIMATE IS BASED ON THE ACTIVE DEGREES OF FREEDOM IN THE FIRST ITERATION OF THE CURRENT STEP, THE MEMORY ESTIMATE MIGHT BE SIGNIFICANTLY DIFFERENT THAN ACTUAL USAGE FOR PROBLEMS WITH SUBSTANTIAL CHANGES IN ACTIVE DEGREES OF FREEDOM BETWEEN STEPS (OR EVEN WITHIN THE SAME STEP). EXAMPLES ARE: PROBLEMS WITH SIGNIFICANT CONTACT CHANGES, PROBLEMS WITH MODEL CHANGE, PROBLEMS WITH BOTH STATIC STEP AND STEADY STATE DYNAMIC PROCEDURES WHERE ACOUSTIC ELEMENTS WILL ONLY BE ACTIVATED IN THE STEADY STATE DYNAMIC STEPS. (4) FOR MULTI-PROCESS EXECUTION, THE ESTIMATED VALUE OF FLOATING POINT OPERATIONS FOR EACH PROCESS IS BASED ON AN INITIAL SCHEDULING OF OPERATIONS AND MIGHT NOT REFLECT THE ACTUAL FLOATING POINT OPERATIONS COMPLETED ON EACH PROCESS. OPERATIONS ARE DYNAMICALLY BALANCED DURING EXECUTION, SO THE ACTUAL BALANCE OF OPERATIONS BETWEEN PROCESSES IS EXPECTED TO BE BETTER THAN THE ESTIMATE PRINTED HERE. (5) THE UPPER LIMIT OF MEMORY THAT CAN BE ALLOCATED BY ABAQUS WILL IN GENERAL DEPEND ON THE VALUE OF THE "MEMORY" PARAMETER AND THE AMOUNT OF PHYSICAL MEMORY AVAILABLE ON THE MACHINE. PLEASE SEE THE "ABAQUS ANALYSIS USER'S MANUAL" FOR MORE DETAILS. THE ACTUAL USAGE OF MEMORY AND OF DISK SPACE FOR SCRATCH DATA WILL DEPEND ON THIS UPPER LIMIT AS WELL AS THE MEMORY REQUIRED TO MINIMIZE I/O. IF THE MEMORY UPPER LIMIT IS GREATER THAN THE MEMORY REQUIRED TO MINIMIZE I/O, THEN THE ACTUAL MEMORY USAGE WILL BE CLOSE TO THE ESTIMATED "MEMORY TO MINIMIZE I/O" VALUE, AND THE SCRATCH DISK USAGE WILL BE CLOSE-TO-ZERO; OTHERWISE, THE ACTUAL MEMORY USED WILL BE CLOSE TO THE PREVIOUSLY MENTIONED MEMORY LIMIT, AND THE SCRATCH DISK USAGE WILL BE ROUGHLY PROPORTIONAL TO THE DIFFERENCE BETWEEN THE ESTIMATED "MEMORY TO MINIMIZE I/O" AND THE MEMORY UPPER LIMIT. HOWEVER ACCURATE ESTIMATE OF THE SCRATCH DISK SPACE IS NOT POSSIBLE. (6) USING "*RESTART, WRITE" CAN GENERATE A LARGE AMOUNT OF DATA WRITTEN IN THE WORK DIRECTORY. THE ANALYSIS HAS BEEN COMPLETED ANALYSIS COMPLETE WITH 5 WARNING MESSAGES ON THE DAT FILE JOB TIME SUMMARY USER TIME (SEC) = 41.000 SYSTEM TIME (SEC) = 1.4000 TOTAL CPU TIME (SEC) = 42.400 WALLCLOCK TIME (SEC) = 43