OptiStruct
- 1
- 1D beam modeling - aerospace[1]
- 1D elements[1]
- 1-plane symmetry constraint[1]
- 3
- 3D (rounded edges) contacts benchmark 2[1]
- 3D loaded pin test problem[1]
- 3D sheet metal forming problem[1]
- 3D steel roller on rubber problem[1]
- 3-point bending simulation - hi-tech electronic applications[1]
- 3-point bending using RBODY example[1]
- _
- _bdst.mvw file[1]
- _des.h3d file[1]
- _e.nlm file[1]
- _e.out file[1]
- _energy.mvw file[1]
- _err.grid file[1]
- _expl.cntf file[1]
- _fat.#.eqsts file[1]
- _frames.html file[1]
- _freq.#.mvw file[1]
- _freq.mvw file[1]
- _gauge.h3d file[1]
- _gso.slk file[1]
- _hist.mvw file[1]
- _impl.h3d file[1]
- _ld.monitor file[1]
- _mass.#.mvw file[1]
- _mass.mvw file[1]
- _mbd.h3d file[1]
- _mbd.log file[1]
- _mbd.mrf file[1]
- _mbd.mvw file[1]
- _mbd.xml file[1]
- _menu.html file[1]
- _modal.#.mvw file[1]
- _modal.mvw file[1]
- _nl.h3d file[1]
- _nl.out file[1]
- _rand.mvw file[1]
- _s#_a.#.frf file[1]
- _s#_a.frf file[1]
- _s#_a.mbd file[1]
- _s#_a.trn file[1]
- _s#_d.#.frf file[1]
- _s#_d.frf file[1]
- _s#_d.mbd file[1]
- _s#_d.trn file[1]
- _s#_v.#.frf file[1]
- _s#_v.frf file[1]
- _s#_v.mbd file[1]
- _s#_v.trn file[1]
- _s#.h3d file[1]
- _sens.#.mvw file[1]
- _shuffling.#.fem file[1]
- _sizing.#.fem file[1]
- _sizing.#.inc file[1]
- _topol.h3d file[1]
- _tran.mvw file[1]
- .
- .#.#.#.dis file[1]
- .#.#.dis.# file[1]
- .#.#.dis file[1]
- .#.#.els file[1]
- .#.#.fat file[1]
- .#.dis.# file[1]
- .#.dis file[1]
- .#.eigv file[1]
- .#.els.# file[1]
- .#.els file[1]
- .#.grid file[1]
- .#.h3d file[1]
- .#.mass file[1]
- .#.rnf file[1]
- .#.sens file[1]
- .#.sh file[1]
- .#.slk file[1]
- .amls_singularity.cmf file[1]
- .amses_singularity.cmf file[1]
- .bdst file[1]
- .cntf file[1]
- .contgap.fem file[1]
- .cpr file[1]
- .cstr file[1]
- .dens file[1]
- .desvar file[1]
- .dis.# file[1]
- .disp file[1]
- .dvgrid file[1]
- .echo file[1]
- .els.# file[1]
- .flst file[1]
- .flt file[1]
- .force file[1]
- .fsthick file[1]
- .full.mat file[1]
- .gpf file[1]
- .grid file[1]
- .h3d file[1]
- .h5 file[1]
- .hdf5 file[1]
- .hgdata file[1]
- .hist file[1]
- .HM.autospc.cmf file[1]
- .HM.comp.tcl file[1]
- .HM.conn.tcl file[1]
- .HM.crtelem.cmf file[1]
- .HM.elcheck.###.cmf file[1]
- .HM.elcheck.cmf file[1]
- .HM.ent.tcl file[1]
- .HM.gapstat.cmf file[1]
- .html file[1]
- .interface file[1]
- .joint file[1]
- .k.op2 file[1]
- .kpi file[1]
- .load file[1]
- .m.op2 file[1]
- .mass file[1]
- .mgg file[1]
- .mnf file[1]
- .monitor file[1]
- .mpcf file[1]
- .op2 file[1]
- .oss file[1]
- .out file[1]
- .pch file[1]
- .pcomp file[1]
- .peak file[1]
- .pret file[1]
- .prop file[1]
- .rand file[1]
- .reduced.mat file[1]
- .rengy file[1]
- .res file[1]
- .secres file[1]
- .seplot file[1]
- .sh file[1]
- .spcd file[1]
- .spcf file[1]
- .stat file[1]
- .strn file[1]
- .strs file[1]
- .trf file[1]
- .trim file[1]
- @
- @hyperform - I/O options and subcase information entry[1]
- <
- A
- A2GG - subcase information entry[1]
- ACCEL1 - Bulk Data Entry[1]
- ACCEL2 - Bulk Data Entry[1]
- ACCEL - Bulk Data Entry[1]
- ACCELERATION - I/O options and subcase information entry[1]
- acceleration punch file[1]
- acceleration punch file - frequency response analysis[1]
- acceleration punch file - linear transient analysis[1]
- acceleration punch file - linear transient analysis by Fourier transformation[1]
- acceleration punch file - random response analysis[1]
- accessing model files[1]
- access model files[1]
- access model files - verification problem[1][2]
- ACCLR - Bulk Data Entry[1]
- ACDISP - I/O options and subcase information entry[1]
- ACINT - I/O options entry[1]
- ACMODL - Bulk Data Entry[1]
- acoustic analysis[1]
- acoustic analysis - coupled FRF analysis[1]
- acoustic analysis of a 2.1 speaker using infinite elements[1]
- acoustic infinite elements[1]
- acoustic infinite elements - implementation[1]
- acoustic infinite elements - input/output[1]
- acoustic performance analysis - hi-tech electronic applications[1]
- ACPOWER - I/O options entry[1]
- ACPVELO - I/O options entry[1]
- ACSRCE - Bulk Data Entry[1]
- ADAMS[1]
- advanced small displacement fea tutorials[1]
- AECOMP - Bulk Data Entry[1]
- AECOMPL - Bulk Data Entry[1]
- AEFACT - Bulk Data Entry[1]
- AELINK - Bulk Data Entry[1]
- AELIST - Bulk Data Entry[1]
- AERO - Bulk Data Entry[1]
- aerodynamic control surface[1]
- aerodynamic flow symmetry about the XY plane[1]
- aerodynamic flow symmetry about the XZ plane[1]
- aerodynamic force output request[1]
- aerodynamic list[1]
- aerodynamic panel element connection[1]
- aerodynamic pressure output request[1]
- aerodynamic trim variable constraint selection[1]
- aeroelastic analysis[1]
- AEROF - I/O options and subcase information entry[1]
- AEROS - Bulk Data Entry[1]
- aerospace applications[1]
- aerospace - design optimization[1]
- aerospace - FEM[1]
- aerospace - solution sequences[1]
- aerospace - summary[1]
- AESTAT - Bulk Data Entry[1]
- AESURF - Bulk Data Entry[1]
- AESYMXY - I/O Options and Subcase Information Entry[1]
- AESYMXZ - I/O Options and Subcase Information Entry[1]
- air conditioner bracket example - topology optimization[1]
- aircraft fitting analysis - aerospace[1]
- airframe stress anlaysis - aerospace[1]
- algorithms - optimization[1]
- AMLS - solvers[1]
- AMSES - solvers[1]
- analysis of composite shells[1]
- analysis of pressure vessel (plane strain)[1]
- analysis of pretensioned assemblies[1]
- analysis output - I/O Options Entry defaults[1]
- ANALYSIS - subcase information entry[1]
- analysis techniques[1]
- analytical background - radiated sound output[1]
- appendix - internal responses[1]
- appendix - parts and instances[1]
- applied forces and motions - MBD[1]
- apply heat flux loads[1][2]
- APRESSURE - I/O Options and Subcase Information Entry[1]
- arbitrary beam section definition[1]
- ASET1 - Bulk Data Entry[1]
- ASET - Bulk Data Entry[1]
- ASSEMBLY - I/O Options Entry[1]
- ASSIGN - I/O Options and Subcase Information Entry[1]
- automated reanalysis - lattice structure optimization[1]
- automated transfer path analysis process - nvh[1]
- automatic multi-level sub-structuring[1]
- automatic multi-level sub-structuring eigensolver[1]
- automatic time stepping - nonlinear transient analysis[1]
- AUTOSPC - I/O Options and Subcase Information Entry[1]
- AVL EXCITE[1]
- axisymmetric element property[1]
- B
- B2GG - subcase information entry[1]
- ball impact on cell phone analysis - hi-tech electronic applications[1]
- BASELIN - Bulk Data Entry[1]
- baseline correction - user guide[1]
- BASELIN - subcase information entry[1]
- basic checks - debug methods[1]
- basic OptiStruct NVH output files[1]
- basic parameters for static aeroelasticity[1]
- basic small displacement fea tutorials[1]
- battery pack bending simulation - hi-tech electronic applications[1]
- BCS - solvers[1]
- BEAD - Bulk Data Entry[1]
- beam bending using nonlinear transient analysis example[1]
- BEGIN - Bulk Data Entry[1]
- BLKHDF - Bulk Data Entry[1]
- BMFACE - Bulk Data Entry[1]
- BNDFIX1 - Bulk Data Entry[1]
- BNDFIX - Bulk Data Entry[1]
- BNDFRE1 - Bulk Data Entry[1]
- BNDFREE - Bulk Data Entry[1]
- bodies - MBD[1]
- BORE - Bulk Data Entry[1]
- bore distortion responses[1]
- boundary conditions for structural analysis and optimization[1]
- brake squeal analysis[1]
- brake squeal analysis - implementation[1]
- brake squeal analysis - input/output[1]
- BSET1 - Bulk Data Entry[1]
- BSET - Bulk Data Entry[1]
- buckling analysis - linear[1]
- buckling of shells and composites with offset[1]
- buckling problems - debug methods[1]
- build external libraries[1]
- build external libraries - optimization responses[1]
- bulk data entries by function[1]
- bulk data entries by function for explicit analysis[1]
- Bulk Data Entry guidelines[1]
- bulk data input file[1]
- bulk data section[1]
- C
- CAABSF - Bulk Data Entry[1]
- CACINF3 - Bulk Data Entry[1]
- CACINF4 - Bulk Data Entry[1]
- CAERO1 - Bulk Data Entry[1]
- CAFLUID - Bulk Data Entry[1]
- campbell diagram - rotor dynamics[1]
- cantilever beam in bending example[1]
- cantilevered tapered membrane (Test No. FV32)[1]
- cantilevered thin square plate (test no. FV16)[1]
- cantilever with off-center point masses (Test No. FV4)[1]
- capabilities[1]
- car bumper impact using nonlinear transient analysis[1]
- cast iron plasticity[1]
- CBAR - Bulk Data Entry[1]
- CBEAM - Bulk Data Entry[1]
- CBUSH1D - Bulk Data Entry[1]
- CBUSH - Bulk Data Entry[1]
- CDAMP1 - Bulk Data Entry[1]
- CDAMP2 - Bulk Data Entry[1]
- CDAMP3 - Bulk Data Entry[1]
- CDAMP4 - Bulk Data Entry[1]
- CDSMETH - Bulk Data Entry[1]
- CDSMETH - I/O Options and Subcase Information Entry[1]
- cds superelement[1]
- CELAS1 - Bulk Data Entry[1]
- CELAS2 - Bulk Data Entry[1]
- CELAS2F - Bulk Data Entry[1]
- CELAS3 - Bulk Data Entry[1]
- CELAS4 - Bulk Data Entry[1]
- CELAS4F - Bulk Data Entry[1]
- CELL - Bulk Data Entry[1]
- cell phone drop test - hi-tech electronic applications[1]
- CFAILURE - I/O Options and Subcase Information Entry[1]
- CFAST - Bulk Data Entry[1]
- CGAP - Bulk Data Entry[1]
- CGAPG - Bulk Data Entry[1]
- CGASK6 - Bulk Data Entry[1]
- CGASK6 element checks and default bound values[1]
- CGASK8 - Bulk Data Entry[1]
- CGASK8 element checks and default bound values[1]
- CGASK12 - Bulk Data Entry[1]
- CGASK12 element checks and default bound values[1]
- CGASK16 - Bulk Data Entry[1]
- CGASK16 element checks and default bound values[1]
- CHACAB - Bulk Data Entry[1]
- change length of bodies - MBD system level response optimization[1]
- CHBDYE - Bulk Data Entry[1]
- CHECK - I/O Options and Subcase Information Entry[1]
- CHEXA - Bulk Data Entry[1]
- CHEXA element checks and default bound values[1]
- CIFHEX - Bulk Data Entry[1]
- CIFPEN - Bulk Data Entry[1]
- clamped thick rhombic plate (Test No. FV22)[1]
- clamped thin rhombic plate (Test No. FV15)[1]
- CLRNC - Bulk Data Entry[1]
- CMASS1 - Bulk Data Entry[1]
- CMASS2 - Bulk Data Entry[1]
- CMASS3 - Bulk Data Entry[1]
- CMASS4 - Bulk Data Entry[1]
- CMBEAM - Bulk Data Entry[1]
- CMBEAMM - Bulk Data Entry[1]
- CMBUSH - Bulk Data Entry[1]
- CMBUSHC - Bulk Data Entry[1]
- CMBUSHE - Bulk Data Entry[1]
- CMBUSHM - Bulk Data Entry[1]
- CMBUSHT - Bulk Data Entry[1]
- CMDE - I/O Options and Subcase Information Entry[1]
- CMETHOD - subcase information entry[1]
- CMKE - I/O Options and Subcase Information Entry[1]
- CMSE - I/O Options and Subcase Information Entry[1]
- CMSMETH - Bulk Data Entry[1]
- CMSMETH - subcase information entry[1]
- CMSPDP - Bulk Data Entry[1]
- CMSPDPC - Bulk Data Entry[1]
- CMSPDPE - Bulk Data Entry[1]
- CMSPDPM - Bulk Data Entry[1]
- CMSPDPT - Bulk Data Entry[1]
- CNTITF - Bulk Data Entry[1]
- CNTITF - Subcase Information Entry[1]
- CNTNLSUB - subcase information entry[1]
- CNTSTB - Bulk Data Entry[1]
- CNTSTB - subcase information entry[1]
- cohesive zone modeling[1]
- combination joints (elements)[1]
- combined hardening of von Mises plasticity[1]
- combined topology and topography tutorials[1]
- combine pattern repetition and pattern grouping with other manufacturing constraints[1]
- communication between OptiStruct and AcuSolve[1]
- complex eigenvalue analysis[1]
- compliance management - lattice structure optimization[1]
- compliant elements - MBD[1]
- component dynamic analysis (cdsmeth) superelement generation[1]
- component for integrated load monitor point[1]
- composite laminates[1]
- composite problems - debug methods[1]
- composite shell bending[1]
- composite structures[1]
- composite structures - free-sizing[1]
- composite structures - phase transitions[1]
- composite structures - ply-based sizing[1]
- composite structures - stacking sequence[1]
- composite topology and free-size optimization[1]
- composite topology and free-size optimization problem formulation[1]
- compression of helical springs example[1]
- compression run[1]
- configuration file entries and format[1]
- configuration file location[1]
- configuration file - memory handling[1]
- configuration file - OptiStruct[1]
- conjugate heat transfer analysis (TFSI) of inline-4 engine head[1]
- CONM1 - Bulk Data Entry[1]
- CONM2 - Bulk Data Entry[1]
- CONNECT - Bulk Data Entry[1]
- connecting rod of a slider crank example - optimization with ESLM[1]
- connectivity - parts and instances[1]
- CONROD - Bulk Data Entry[1]
- constraints ball joint[1]
- constraints constant velocity joint[1]
- constraint screening - gradient-based optimization[1]
- constraints cylindrical joint[1]
- constraints - MBD[1]
- constraints on grids in the design region[1]
- constraints planar joint[1]
- constraints revolute joint[1]
- constraints translational joint[1]
- constraints universal joint[1]
- contact analysis output[1]
- contact-based thermal analysis[1]
- CONTACT - Bulk Data Entry[1]
- contact discretization[1]
- contact discretization - node-to-surface[1]
- contact - friction[1]
- contact - friction models[1]
- contact implementation[1]
- contact interface parameters[1]
- contact interface types[1]
- contact - Lagrange multipliers[1]
- contact - lattice structure optimization[1]
- contact - MBD[1]
- contact - node-to-node discretization[1]
- contact - OptiStruct[1]
- contact pressure response example[1]
- contact smoothing with two concentric rings[1]
- contact - surface-to-surface discretization[1]
- contact with friction - verification[1]
- CONTF - I/O Options and Subcase Information Entry[1]
- continuum shell composites using PCOMPLS[1]
- continuum shells analysis - analysis of composites[1]
- continuum shells - composite laminates[1]
- CONTPRM - Bulk Data Entry[1]
- control of used memory[1]
- CONTX11 - Bulk Data Entry[1]
- CONV - Bulk Data Entry[1]
- convergence considerations for small displacement nonlinear analysis[1]
- convergence enhancement for ESLM[1]
- convergence - regular or soft[1]
- CORD1C - Bulk Data Entry[1]
- CORD1R - Bulk Data Entry[1]
- CORD1S - Bulk Data Entry[1]
- CORD2C - Bulk Data Entry[1]
- CORD2R - Bulk Data Entry[1]
- CORD2S - Bulk Data Entry[1]
- CORD3R - Bulk Data Entry[1]
- CORD4R - Bulk Data Entry[1]
- coupled frequency response analysis of fluid-structure models[1]
- coupled FRF analysis on a fluid-structure model[1]
- coupled thermal-structural analysis[1]
- coupled thermal structural analysis and optimization[1]
- coupled thermal-structural analysis - nonlinear transient heat transfer[1]
- coupled thermal structure analysis - powertrain applications[1]
- COUPLER - Bulk Data Entry[1]
- coupling OptiStruct with third party solvers - powertrain applications[1]
- CPENTA - Bulk Data Entry[1]
- CPENTA element checks and default bound values[1]
- CPYRA - Bulk Data Entry[1]
- CPYRA element checks and default bound values[1]
- CQAXI - Bulk Data Entry[1]
- CQPSTN - Bulk Data Entry[1]
- CQUAD4 - Bulk Data Entry[1]
- CQUAD4 element checks and default bound values[1]
- CQUAD8 - Bulk Data Entry[1]
- CQUAD8 element checks and default bound values[1]
- CQUADR - Bulk Data Entry[1]
- Craig Bamptom nodal method (CBDN)[1]
- Craig-Bampton method - flexible body generation[1]
- Craig-Chang method - flexible body generation[1]
- Create a HyperGraph Template for Reading in Multiple Files - NVH[1]
- create output for third party software - OptiStruct[1]
- critical plane approach[1]
- critical time step - nonlinear explicit analysis[1]
- CROD - Bulk Data Entry[1]
- cross-section optimization of a spot welded tube example[1]
- CSEAM - Bulk Data Entry[1]
- CSEC2 - Bulk Data Entry[1]
- CSEC3 - Bulk Data Entry[1]
- CSEC4 - Bulk Data Entry[1]
- CSEC6 - Bulk Data Entry[1]
- CSEC8 - Bulk Data Entry[1]
- CSET1 - Bulk Data Entry[1]
- CSET - Bulk Data Entry[1]
- CSHEAR - Bulk Data Entry[1]
- CSTRAIN - I/O Options and Subcase Information Entry[1]
- CSTRESS - I/O Options and Subcase Information Entry[1]
- CSUPEXT - Bulk Data Entry[1]
- CTAXI / CTRIAX6 element checks and default bound values[1]
- CTAXI - Bulk Data Entry[1]
- CTETRA - Bulk Data Entry[1]
- CTETRA element checks and default bound values[1]
- CTPSTN - Bulk Data Entry[1]
- CTRIA3 - Bulk Data Entry[1]
- CTRIA3 element checks and default bound values[1]
- CTRIA6 - Bulk Data Entry[1]
- CTRIA6 element checks and default bound values[1]
- CTRIAR - Bulk Data Entry[1]
- CTRIAX6 - Bulk Data Entry[1]
- CTUBE - Bulk Data Entry[1]
- curved cantilever beam verification problem[1]
- CVISC - Bulk Data Entry[1]
- CWELD - Bulk Data Entry[1]
- CYAX - Bulk Data Entry[1]
- cyclical pattern grouping[1]
- cyclic symmetry analysis[1]
- CYJOIN - Bulk Data Entry[1]
- cylinder shell patch (test no. LE2)[1]
- cylindrical pattern grouping[1]
- CYSYM - Bulk Data Entry[1]
- D
- damage-based method - cohesive zone modeling[1]
- DAMAGE - I/O Options and Subcase Information Entry[1]
- Dang Van criterion[1]
- Dang Van fatique optimization example[1]
- darcy flow analysis and convection topology optimization[1]
- DAREA - Bulk Data Entry[1]
- data management - OptiStruct faq[1]
- DCOMP - Bulk Data Entry[1]
- DCONADD - Bulk Data Entry[1]
- DCONSTR - Bulk Data Entry[1]
- DDVAL - Bulk Data Entry[1]
- debugging guide[1]
- DEBUG - I/O Options and Subcase Information Entry[1]
- deck setup in OptiStruct[1]
- deep simply-supported beam (Test No. FV5)[1]
- defaults summary - I/O Options Entry[1]
- define free-shape design regions[1]
- definition file - external fluid-structure coupling[1]
- DEFORM - Bulk Data Entry[1]
- DEFORM - subcase information entry[1]
- DELAY - Bulk Data Entry[1]
- DENSITY - I/O Options and Subcase Information Entry[1]
- DENSRES -I/O Options Entry[1]
- DEQATN - Bulk Data Entry[1]
- DESGLB - I/O Options and Subcase Information Entry[1]
- DESHIS - I/O Options and Subcase Information Entry[1]
- design characterists of topology and free-size[1]
- design interpretation - OSSmooth[1]
- design objective for system identification[1]
- design optimization - aerospace[1]
- design optimization - OptiStruct[1]
- design sensitivity analysis example[1]
- design variables for size (parameter) optimization[1]
- design variables for topography optimization[1]
- design variables - topology optimization[1]
- DESOBJ - subcase information entry[1]
- DESSUB - subcase information entry[1]
- DESVAR - Bulk Data Entry[1]
- DESVARG - Bulk Data Entry[1]
- DESVAR - subcase information entry[1]
- DGLOBAL - Bulk Data Entry[1]
- DGLOBAL - I/O Options and Subcase Information Entry[1]
- diagnosing non-converged solution using NLMON example[1]
- DIM - Bulk Data Entry[1]
- direct frequency response analysis[1]
- direct matrix input (superelements)[1]
- direct matrix input for Finite Element Analysis (superelements)[1]
- direct solvers[1]
- direct transient response - rotor dynamics example[1]
- discrete design variables - gradient-based optimization[1]
- displacement-based damage evolution index - damage model method[1]
- DISPLACEMENT - I/O Options and Subcase Information Entry[1]
- displacement punch file[1]
- displacement punch file - complex eigenvalue analysis[1]
- displacement punch file - frequency response analysis[1]
- displacement punch file - linear and nonlinear static analysis[1]
- displacement punch file - linear buckling analysis[1]
- displacement punch file - linear transient analysis[1]
- displacement punch file - normal modes analysis[1]
- displacement punch file - random response analysis[1]
- displacement punch file - response spectrum analysis[1]
- displacements - results of finite element analysis[1]
- DIVERG - Bulk Data Entry[1]
- DIVERG - subcase information entry[1]
- dlattice - Bulk Data Entry[1]
- DLINK1 - Bulk Data Entry[1]
- DLINK2 - Bulk Data Entry[1]
- DLINK - Bulk Data Entry[1]
- DLOAD - Bulk Data Entry[1]
- DLOAD - subcase information entry[1]
- DMGEVO - Bulk Data Entry[1]
- DMGINI - Bulk Data Entry[1]
- DMIG - Bulk Data Entry[1]
- DMIGMOD - Bulk Data Entry[1]
- DMIGNAME - I/O Options and Subcase Information Entry[1]
- DMIGROT - Bulk Data Entry[1]
- DMVREL: types - Bulk Data Entry[1]
- DOBJREF - Bulk Data Entry[1]
- domain decomposition method (DDM)[1]
- DOPTPRM, APPROX - Bulk Data Entry[1]
- DOPTPRM, AUTOWGHT - Bulk Data Entry[1]
- DOPTPRM, BARCON - Bulk Data Entry[1]
- DOPTPRM, BKLOCAL1 - Bulk Data Entry[1]
- DOPTPRM, BKLOCAL2 - Bulk Data Entry[1]
- DOPTPRM, CHECKER - Bulk Data Entry[1]
- DOPTPRM, CONTOL - Bulk Data Entry[1]
- DOPTPRM, DDVOPT - Bulk Data Entry[1]
- DOPTPRM, DELSHP - Bulk Data Entry[1]
- DOPTPRM, DELSIZ - Bulk Data Entry[1]
- DOPTPRM, DELTOP - Bulk Data Entry[1]
- DOPTPRM, DESMAX - Bulk Data Entry[1]
- DOPTPRM, DISCRETE - Bulk Data Entry[1]
- DOPTPRM, DISCRT1D - Bulk Data Entry[1]
- DOPTPRM, ESLMAX - Bulk Data Entry[1]
- DOPTPRM, ESLSOPT - Bulk Data Entry[1]
- DOPTPRM, ESLSTOL - Bulk Data Entry[1]
- DOPTPRM, GBUCK - Bulk Data Entry[1]
- DOPTPRM, LATLB - Bulk Data Entry[1]
- DOPTPRM, LATTICE - Bulk Data Entry[1]
- DOPTPRM, MATINIT - Bulk Data Entry[1]
- DOPTPRM, MAX_BUCK - Bulk Data Entry[1]
- DOPTPRM, MAXITER - Bulk Data Entry[1]
- DOPTPRM, MINDENS - Bulk Data Entry[1]
- DOPTPRM, MINDIM - Bulk Data Entry[1]
- DOPTPRM, MINMETH - Bulk Data Entry[1]
- DOPTPRM, MMCHECK - Bulk Data Entry[1]
- DOPTPRM, NESLEXPD - Bulk Data Entry[1]
- DOPTPRM, OBJTOL - Bulk Data Entry[1]
- DOPTPRM, OLDPEN - Bulk Data Entry[1]
- DOPTPRM, OPTIMOMP - bulk data entry[1]
- DOPTPRM, OPTMETH - Bulk Data Entry[1]
- DOPTPRM, PNORM - Bulk Data Entry[1]
- DOPTPRM, POROSITY - Bulk Data Entry[1]
- DOPTPRM, REMESH - Bulk Data Entry[1]
- DOPTPRM, SHAPEOPT - Bulk Data Entry[1]
- DOPTPRM, TMINPLY - Bulk Data Entry[1]
- DOPTPRM, TOPDISC - Bulk Data Entry[1]
- DOPTPRM, TOPDV - Bulk Data Entry[1]
- DOPTPRM, TOPRST - Bulk Data Entry[1]
- DOPTPRM - Bulk Data Entry[1]
- DPHASE - Bulk Data Entry[1]
- DRAPE - Bulk Data Entry[1]
- draw direction constraint - free-shape optimization[1]
- draw direction constraints - topology optimization[1]
- DREPADD - Bulk Data Entry[1]
- DREPORT - Bulk Data Entry[1]
- DRESP1 - Bulk Data Entry[1]
- DRESP1 - center of gravity and moments of inertia item codes[1]
- DRESP1 - composite static failure item codes[1]
- DRESP1 - contact force response item codes[1]
- DRESP1 - frequency response displacement, velocity, and acceleration item codes[1]
- DRESP1 - frequency response force item codes[1]
- DRESP1 - frequency response pressure item codes[1]
- DRESP1 - frequency response stress/strain item codes[1]
- DRESP1 - MBD displacement item codes[1]
- DRESP1 - MBD force item codes[1]
- DRESP1 - MBD velocity/acceleration item codes[1]
- DRESP1 - PSD/RMS displacement, velocity, and acceleration item codes[1]
- DRESP1 - PSD/RMS pressure item codes[1]
- DRESP1 - PSD/RMS stress/strain item codes[1]
- DRESP1 - responses and attributes[1]
- DRESP1 - section property item codes[1]
- DRESP1 - static failure item codes[1]
- DRESP1 - static force item codes[1]
- DRESP1 - static stress/strain item codes[1]
- DRESP1 - static stress/strain item codes for composites[1]
- DRESP1 - static stress item codes for bar elements using PBARL, PBEAML properties[1]
- DRESP2 - Bulk Data Entry[1]
- DRESP3 - Bulk Data Entry[1]
- DRESPONSE - I/O Options and Subcase Information Entry[1]
- DSA - I/O Options and Subcase Information Entry[1]
- DSCREEN - Bulk Data Entry[1]
- DSHAPE - Bulk Data Entry[1]
- DSHUFFLE - Bulk Data Entry[1]
- DSIZE - Bulk Data Entry[1]
- DSYSID - Bulk Data Entry[1]
- DTABLE - Bulk Data Entry[1]
- DTI,SPECSEL - Bulk Data Entry[1]
- DTI,UNITS - Bulk Data Entry[1]
- DTPG - Bulk Data Entry[1]
- DTPL - bulk data entry[1]
- DVCREL1 - Bulk Data Entry[1]
- DVCREL2 - Bulk Data Entry[1]
- DVCREL: types - Bulk Data Entry[1]
- DVGRID - Bulk Data Entry[1]
- DVLREL1 - Bulk Data Entry[1]
- DVLREL2 - Bulk Data Entry[1]
- DVMBRL1 - Bulk Data Entry[1]
- DVMBRL2 - Bulk Data Entry[1]
- DVMREL1 - Bulk Data Entry[1]
- DVMREL2 - Bulk Data Entry[1]
- DVPREL1 - Bulk Data Entry[1]
- DVPREL2 - Bulk Data Entry[1]
- DVPREL: Types - Bulk Data Entry[1]
- dynamic/nonlinear analysis - internal responses[1]
- dynamic aeroelastic analysis[1]
- dynamic analysis - debug methods[1]
- dynamic behavior of fluid-containing structure using MFLUID example[1]
- dynamic condensation[1]
- E
- ECHO - I/O Options and Subcase Information Entry[1]
- ECHOOFF - I/O Options and Subcase Information Entry[1]
- ECHOON - I/O Options and Subcase Information Entry[1]
- EDE - I/O Options and Subcase Information Entry[1]
- EDGEBH - Bulk Data Entry[1]
- EDRAWB - Bulk Data Entry[1]
- EIGC - Bulk Data Entry[1]
- eigenvalue maximization with topography optimization[1]
- eigenvalue solvers[1]
- eigenvector orthonormalization[1]
- EIGRA - Bulk Data Entry[1]
- EIGRD - Bulk Data Entry[1]
- EIGRL - Bulk Data Entry[1]
- EIGVNAME - I/O Options and Subcase Information Entry[1]
- EIGVRETRIEVE - subcase information entry[1]
- EIGVSAVE - subcase information entry[1]
- EKE - I/O Options and Subcase Information Entry[1]
- EL2PROP - Bulk Data Entry[1]
- elastic, damper and mass elements[1]
- elastic-plastic large displacement analysis[1]
- element quality check[1]
- element results representation for models[1]
- elements[1]
- elements - non-structural mass[1]
- ELEMQUAL - Bulk Data Entry[1]
- ELFORCE - I/O Options and Subcase Information Entry[1]
- ELIST - Bulk Data Entry[1]
- elliptic membrane (test no. LE1)[1]
- ELSM - convergence enhancement[1]
- ELSTRESS - I/O Options and Subcase Information Entry[1]
- E-N approach - fatigue analysis[1]
- E-N approach - multiaxial fatigue analysis[1]
- encryption[1]
- END - Bulk Data Entry[1]
- ENDLOAD - I/O Options and Subcase Information Entry[1]
- energy dissipation-based damage evolution index[1]
- ENERGY - I/O Options and Subcase Information Entry[1]
- energy variables[1][2]
- enhance the design process[1]
- environment variables[1]
- EQSTSAMP - I/O Options and Subcase Information Entry[1]
- equivalent static load - displacement[1]
- equivalent static load method (ESLM)[1]
- ERP - I/O Options and Subcase Information Entry[1]
- ERPPNL - Bulk Data Entry[1]
- error message database[1]
- ESE - I/O Options and Subcase Information Entry[1]
- ESLM example - MBD system level response optimization[1]
- ESLM for MBD[1]
- ESLM for MBD method[1]
- ESLM for nonlinear response optimization[1]
- ESLM output requests[1]
- ESLM parameters[1]
- ESLM parameters MBD[1]
- ESLTADD - Bulk Data Entry[1]
- ESLTIME - Bulk Data Entry[1]
- ESLTIME - subcase information entry[1]
- example, manifold: nonlinear transient heat transfer[1]
- example cantilever beam using equations - size (parameter) optimization[1]
- example - direct matrix input for finite element analysis (superelements)[1]
- example guide OptiStruct[1]
- example problems for shape optimization[1]
- example shell cantilever - size optimization[1]
- examples - symbolic substitution[1]
- example ten bar truss - size (parameter) optimization[1]
- EXCLUDE - subcase information entry[1]
- expanded error message file[1]
- expanded error message file location[1]
- explicit analysis time step parameters[1]
- explicit dynamic analysis[1]
- explicit dynamic analysis(Radioss Integration)[1]
- explicit dynamic analysis - loads and boundary conditions[1]
- explicit dynamic analysis - problem setup[1]
- explicit dynamic analysis - solution method[1]
- explicit dynamic analysis - user's consideration[1]
- explicit finite element analysis method[1]
- external acoustic using infinite element method - hi-tech electronic applications[1]
- external acoustic using RADSND method - hi-tech electronic applications[1]
- external fluid-structure coupling definition file[1]
- external optimization responses (DRESP3) example[1]
- external responses - OptiStruct[1]
- external responses using Altair Compose[1]
- EXTRN - Bulk Data Entry[1]
- extrusion constraint - free-shape optimization[1]
- extrusion constraints - topology optimization manufacturability[1]
- F
- factor of safety - Dang Van Criterion[1]
- failsafe topology optimization[1]
- failsafe topology optimization of 3D column[1]
- failure criteria - composite continuum shells[1]
- failure criteria - composite laminated shells[1]
- failure evaluation - seam weld fatigue analysis[1]
- FAILURE - I/O Options and Subcase Information Entry[1]
- faq - data management OptiStruct[1]
- faq - high performance computing[1]
- faq - optimization setup[1]
- faq - OptiStruct[1]
- faq - post-processing and results output[1]
- faq - run OptiStruct[1]
- fast contact - OptiStruct[1]
- FASTFR - solvers[1]
- FastFRS - solvers[1]
- FATDEF - Bulk Data Entry[1]
- FATDEF - subcase information entry[1]
- FATEVNT - Bulk Data Entry[1]
- fatigue analysis[1]
- fatigue analysis - output for third party software[1]
- fatigue analysis - powertrain applications[1]
- fatigue analysis setup[1]
- fatigue analysis tutorials[1]
- fatigue - internal responses[1]
- fatigue properties - seam weld analysis[1]
- FATLOAD - Bulk Data Entry[1]
- FATMCRV - Bulk Data Entry[1]
- FATPARM - Bulk Data Entry[1]
- FATPARM - subcase information entry[1]
- FATSEAM - Bulk Data Entry[1]
- FATSEQ - Bulk Data Entry[1]
- FATSEQ - subcase information entry[1]
- FE analysis - I/O Options Entry defaults[1]
- fea setup and modeling - OptiStruct faq[1]
- FEA solution with pretensioning[1]
- FEA solution with pretensioning - 1D bolt[1]
- FEA solution with pretensioning - 3D bolt[1]
- FEA topography for reanalysis[1]
- FEA topology for reanalysis[1]
- features - optimization[1]
- features - OptiStruct[1]
- features - shape optimization[1]
- features - size (parameter) optimization[1]
- features - structural optimization in multibody dynamics systems[1]
- FEM - aerospace[1]
- file location - configuration file[1]
- file names, headers, and locations I/O Options Entry defaults[1]
- file output controls[1]
- files created by OptiStruct[1]
- finite element analysis - features[1]
- finite element analysis results[1]
- finite element model validation - aerospace[1]
- finite sliding contact example[1]
- FLDATA - Bulk Data Entry[1]
- flexible body generation[1]
- Flexible Body Generation Input/Output[1]
- FLFACT - Bulk Data Entry[1]
- FLLWER - Bulk Data Entry[1]
- FLLWER - subcase information entry[1]
- FLSPOUT - I/O Options and Subcase Information Entry[1]
- fluid-structure interaction[1]
- fluid structure interaction analysis[1]
- fluid-structure interaction analysis tutorials[1]
- fluid structure interaction input[1]
- Fluid Structure Interaction Output[1]
- fluid structure interaction - workflow[1]
- fluid-structure interface[1]
- fluid-structure interface visualization and refinement[1]
- FLUTTER - Bulk Data Entry[1]
- FLUX - I/O Options and Subcase Information Entry[1]
- Flux OptiStruct[1]
- FMETHOD - Subcase Information Entry[1]
- foldable phone analysis - hi-tech electronic applications[1]
- FORCE1 - Bulk Data Entry[1]
- FORCE2 - Bulk Data Entry[1]
- FORCE - Bulk Data Entry[1]
- FORCE - I/O Options and Subcase Information Entry[1]
- force punch file[1]
- force punch file - frequency response analysis[1]
- forge a design concept out of a solid block example[1]
- FORMAT - I/O Options and Subcase Information Entry[1]
- FORMAT -I/O Options Entry[1]
- formats[1]
- forward creep at steady twist rate - verification[1]
- FOS - I/O Options and Subcase Information Entry[1]
- fourier transformation - linear transient analysis[1]
- free cylinder: axi-symmetric vibration (test no. FV41)[1]
- free-shape design regions - define[1]
- free-shape optimization[1]
- free-shape optimization - features[1]
- free-shape parameters[1]
- free-size optimization[1]
- free-size optimization - features[1]
- free-size optimization member size control[1]
- free-size optimization - pattern grouping[1]
- free-size pattern repetitiion[1]
- free-sizing optimization - manufacturability[1]
- free thin square plate (Test No. FV12)[1]
- FREQ1 - Bulk Data Entry[1]
- FREQ2 - Bulk Data Entry[1]
- FREQ3 - Bulk Data Entry[1]
- FREQ4 - Bulk Data Entry[1]
- FREQ5 - Bulk Data Entry[1]
- FREQ - Bulk Data Entry[1]
- frequency response analysis[1]
- frequency response analysis - hi-tech electronic applications[1]
- frequency response analysis - MPCFORCE[1]
- frequency response analysis of 3D rotor dynamics model[1]
- frequency response function - internal responses[1]
- frequency response loadcases[1][2]
- frequency response loads and boundary conditions[1]
- FREQUENCY - subcase information entry[1]
- FRF analysis[1]
- friction - contact[1]
- friction example[1]
- friction models - contact[1]
- FSI - Bulk Data Entry[1]
- FSI - subcase information entry[1]
- fully-qualified references - parts and instances[1]
- function expressions - MBD[1]
- G
- GAPPRM, CHKRUN[1]
- GAPPRM, CKGPDIR[1]
- GAPPRM, ERRMSG[1]
- GAPPRM, GAPCMPL[1]
- GAPPRM, GAPGPRJ[1]
- GAPPRM, GAPOFFS[1]
- GAPPRM, GPCOINC[1]
- GAPPRM, HMGAPST[1]
- GAPPRM, PRTSW[1]
- GAPPRM - Bulk Data Entry[1]
- GENEL - Bulk Data Entry[1]
- general acceleration PCH format - punch file[1]
- general - create output for third party software[1]
- general displacement PCH format - punch file[1]
- general element force pch format - punch file[1]
- general method (GM)[1]
- general MPCFORCE PCH format - punch file[1]
- general output information[1]
- general stress PCH format - punch file[1]
- general velocity PCH format - punch file[1]
- generate and evaluate a design using topology optimization[1]
- generate the matrices[1]
- global-local modeling[1]
- global-local modeling - subcase specific[1]
- global search option - design optimization[1]
- global search option NVH[1]
- GLOBSUB - subcase information entry[1]
- GMATCH - Bulk Data Entry[1]
- governing equations - normal modes analysis[1]
- governing equations - random spectrum analysis[1]
- GPFORCE - I/O Options and Subcase Information Entry[1]
- GPFOS - I/O Options and Subcase Information Entry[1]
- GPKE - I/O Options and Subcase Information Entry[1]
- GPSTRAIN - I/O Options and Subcase Information Entry[1]
- GPSTRESS / GSTRESS - I/O Options and Subcase Information Entry[1]
- gradient-based optimization method[1]
- gradient-based optimization - regular or soft convergence[1]
- graphics processing unit[1]
- GRAV - Bulk Data Entry[1]
- GRDSET - Bulk Data Entry[1]
- GRID - Bulk Data Entry[1]
- grid point stresses - results of a finite element analysis[1]
- grid point stress response for free-shape optimization[1]
- GRIDS - Bulk Data Entry[1]
- GROUND - Bulk Data Entry[1]
- GROUNDCHECK - subcase information entry[1]
- GSO - global search option[1]
- GT-SUITE[1]
- H
- hardware - OptiStruct[1]
- hardware recommendations[1]
- HARMONICS - I/O Options Entry[1]
- heat flux loads - apply[1][2]
- heat transfer analysis - internal responses[1]
- high performance computing - OptiStruct[1]
- HISOUT - I/O Options and Subcase Information Entry[1]
- hi-tech electronic applications - User Guide[1]
- hoe normal offset of 3-node edge[1]
- hoe tangent offset of 3-node edge[1]
- hot spot stress - seam weld fatigue analysis[1]
- hourglass control[1]
- hourglass control parameters[1]
- HOURGLS - Bulk Data Entry[1]
- HYBDAMP - Bulk Data Entry[1]
- HYBDAMP - I/O Options and Subcase Information Entry[1]
- hybrid shared/distribution memory parallelization (SPMD)[1]
- Hyper3D binary file (.h3d)[1]
- hyperelastic material verification[1]
- hyperelastic - pressurized rubber disk[1]
- HyperMesh[1][2]
- HyperMesh results file (.res)[1]
- HyperView[1][2][3][4][5][6]
- I
- I/O options by function[1]
- I/O Options Entry guidelines[1]
- i/o options section[1]
- IC - subcase information entry[1]
- IDGLOBALIC - subcase information entry[1]
- id resolution guidelines - OptiStruct[1]
- id resolution guidelines - parts and instances[1]
- IMPERF - Bulk Data Entry[1]
- imperfection[1]
- IMPERF - subcase information entry[1]
- implementation SMP[1]
- IMPORT - I/O Options and Subcase Information Entry[1]
- INCLUDE - Bulk Data Entry[1]
- INCLUDE - I/O Options, Bulk Data Entry, Subcase Information Entry[1]
- inertia relief[1]
- INFILE -I/O Options Entry[1]
- INISTRS - Bulk Data Entry[1]
- INISTRS - subcase information entry[1]
- initial velocity - MBD[1]
- INLETVEL - Bulk Data Entry[1]
- INLETVEL - Subcase Information Entry[1]
- input data[1]
- input data - thermal structural analysis[1]
- input definition[1]
- input - linear transient analysis by fourier transformation[1]
- input - random response fatigue analysis[1]
- input - sine sweep fatigue analysis[1]
- input specification - response spectrum analysis[1]
- input specifications - normal modes analysis[1]
- INSTANCE - I/O Options Entry[1]
- instances - parts and instances[1]
- INSTNCE - Bulk Data Entry[1]
- Integrated Load Monitor Point[1]
- integrate Multiscale Designer files - multiscale model[1]
- integrate Multiscale Designer files - single-scale model[1]
- interface implementation methods - cohesive zone modeling[1]
- internal response - OptiStruct[1]
- internal superelements[1]
- interpretation of results for composites[1]
- interpretation of topography optimization results[1]
- interpretation of topology optimization results[1]
- interpret free-size results[1]
- interpret topology and free-size results[1]
- introductory example shape optimization[1]
- INVELB - Bulk Data Entry[1]
- INVELJ - Bulk Data Entry[1]
- INVEL - subcase information entry[1]
- ISTSADD - Bulk Data Entry[1]
- iterative solution - gradient-based optimization[1]
- iterative solvers[1]
- J
- JOINT - Bulk Data Entry[1]
- JOINTG (connectors)[1]
- JOINTG - Bulk Data Entry[1]
- JOINTM - Bulk Data Entry[1]
- K
- K2GGIC - subcase information entry[1]
- K2PP - subcase information entry[1]
- K42GG - subcase information entry[1]
- keywords - symbolic substitution[1]
- L
- LABEL - subcase information entry[1]
- Lagrange multipliers (MPC-based)[1]
- laminated shell strength analysis - mechanical load 1[1]
- laminated shell strength analysis - mechanical load 2[1]
- laminated shell strength analysis - mechanical load 3[1]
- laminated shell strength analysis - thermal load 1[1]
- laminated strip[1]
- lanczos - Solvers[1]
- Laplacian smoothing[1]
- large displacement analysis of chassis[1]
- large displacement fea tutorials OptiStruct[1]
- large displacement subcase example[1]
- large number of design variables - MBD system level response optimization[1]
- large scale optimization algorith (BIGOPT)[1]
- large shape change optimization[1]
- laser edge overlap - seam weld fatigue analysis[1]
- LATPRM, BOUNDARY - Bulk Data Entry[1]
- LATPRM, BUCKSF - Bulk Data Entry[1]
- LATPRM, CLEAN - Bulk Data Entry[1]
- LATPRM, LATLB - Bulk Data Entry[1]
- LATPRM, LATSUP - Bulk Data Entry[1]
- LATPRM, LATTICE - Bulk Data Entry[1]
- LATPRM, MAXRAD - Bulk Data Entry[1]
- LATPRM, MINRAD - Bulk Data Entry[1]
- LATPRM, ONEDVPGR - Bulk Data Entry[1]
- LATPRM, OSSRMSH - Bulk Data Entry[1]
- LATPRM, POROSITY - Bulk Data Entry[1]
- LATPRM, R2LRATIO - Bulk Data Entry[1]
- LATPRM, STRMETH - Bulk Data Entry[1]
- LATPRM, TETSPLT - Bulk Data Entry[1]
- LATPRM - Bulk Data Entry[1]
- lattice generation (phase 1) - lattice structure optimization[1]
- lattice sizing+ - lattice structure optimization[1]
- lattice structure optimization[1]
- lattice structure optimization, example[1]
- lattice structure optimization - automated reanalysis[1]
- lattice structure optimization - compliance management[1]
- lattice structure optimization - contact[1]
- lattice structure optimization - size (parameter) optimization (phase 2)[1]
- lattice structure optimization - smoothing and remeshing[1]
- lattice structure optimization - stiffness penalization[1]
- lattice structure optimization - stress constraints[1]
- lattice structure optimizatio - porosity control[1]
- launch FSO[1]
- launch mmo[1]
- launch OptiStruct DDM[1]
- launch OptiStruct SMP[1]
- launch OptiStruct SPMD on Linux machines using direct calls to executables[1]
- launch OptiStruct SPMD on Windows machines using direct calls to executables[1]
- legacy data - OptiStruct[1][2]
- level set method[1]
- LIFE - I/O Options and Subcase Information Entry[1]
- limitations - MBD system level response optimization[1]
- linear analysis - MBD[1]
- linear buckling analysis[1]
- linear buckling analysis - internal responses[1]
- linear direct transient response[1]
- linear modal transient response[1]
- linear penalty curve (nonlinear analysis[1]
- linear spline[1]
- linear static analysis[1]
- linear static analysis - rotor dynamics example[1]
- linear steady-state heat transfer analysis[1]
- linear transient analysis[1]
- linear transient analysis by fourier transformation[1]
- linear transient analysis by Fourier transformation - displacement[1]
- linear transient analysis by Fourier transformation - velocity punch file[1]
- linear transient analysis - internal responses[1]
- linear transient heat transfer analysis[1]
- LINE - Bulk Data Entry[1]
- links aeroelastic variables[1]
- Linux[1]
- LOADADD - Bulk Data Entry[1]
- LOAD - Bulk Data Entry[1]
- LOADCYH - Bulk Data Entry[1]
- LOADCYN - Bulk Data Entry[1]
- LOADJG - Bulk Data Entry[1]
- LOADJG - subcase information entry[1]
- LOADLIB - I/O Options Entry[1]
- Load on Flexible Body[1]
- loads and boundary conditions[1]
- loads on the fluid mesh - coupled frequency response analysis by fourier[1]
- LOAD - subcase information entry[1]
- load time history compression[1]
- local and global entries - parts and instances[1]
- local coordinate systems for JOINTG[1]
- LOCATE - Bulk Data Entry[1]
- LOCATE - subcase information entry[1]
- M
- M2GG - subcase information entry[1]
- manufacturability for free-sizing optimization[1]
- manufacturability for topography optimization[1]
- manufacturability for topology optimization[1]
- manufacturing constraints[1]
- MAP - Bulk Data Entry[1]
- MARKER - Bulk Data Entry[1]
- markers - MBD[1]
- mass elements[1]
- MASSTOH3D -I/O Options Entry[1]
- MASTA[1]
- MAT1 - Bulk Data Entry[1]
- MAT2 - Bulk Data Entry[1]
- MAT3 - Bulk Data Entry[1]
- MAT4 - Bulk Data Entry[1]
- MAT5 - Bulk Data Entry[1]
- MAT8 - Bulk Data Entry[1]
- MAT9 - Bulk Data Entry[1]
- MAT9OR - Bulk Data Entry[1]
- MAT10 - Bulk Data Entry[1]
- material, cast iron[1]
- material property check[1]
- material property checks for MAT1[1]
- material property checks for MAT2[1]
- material property checks for MAT3[1]
- material property checks for MAT8[1]
- material property checks for MAT9[1]
- materials[1]
- MATF1 - Bulk Data Entry[1]
- MATF2 - Bulk Data Entry[1]
- MATF3 - Bulk Data Entry[1]
- MATF8 - Bulk Data Entry[1]
- MATF9 - Bulk Data Entry[1]
- MATF10 - Bulk Data Entry[1]
- MATFAT - Bulk Data Entry[1]
- MATF - Bulk Data Entry[1]
- MATFVE - Bulk Data Entry[1]
- MATHE - Bulk Data Entry[1]
- MATHF - Bulk Data Entry[1]
- MATMDS - Bulk Data Entry[1]
- MATPE1 - Bulk Data Entry[1]
- matrices in a finite element analysis[1]
- MATS1 - Bulk Data Entry[1]
- MATT1 - Bulk Data Entry[1]
- MATT2 - Bulk Data Entry[1]
- MATT3 - Bulk Data Entry[1]
- MATT4 - Bulk Data Entry[1]
- MATT8 - Bulk Data Entry[1]
- MATT9 - Bulk Data Entry[1]
- MATT9OR - Bulk Data Entry[1]
- MATTHE - Bulk Data Entry[1]
- MATTVP - Bulk Data Entry[1]
- MATUSHT - Bulk Data Entry[1]
- MATUSR - Bulk Data Entry[1]
- MATVE - Bulk Data Entry[1]
- MATVP - Bulk Data Entry[1]
- MATX0 - Bulk Data Entry[1]
- MATX02 - Bulk Data Entry[1]
- MATX13 - Bulk Data Entry[1]
- MATX21 - Bulk Data Entry[1]
- MATX25 - Bulk Data Entry[1]
- MATX27 - Bulk Data Entry[1]
- MATX28 - Bulk Data Entry[1]
- MATX33 - Bulk Data Entry[1]
- MATX36 - Bulk Data Entry[1]
- MATX38 - Bulk Data Entry[1]
- MATX42 - Bulk Data Entry[1]
- MATX43 - Bulk Data Entry[1]
- MATX44 - Bulk Data Entry[1]
- MATX60 - Bulk Data Entry[1]
- MATX62 - Bulk Data Entry[1]
- MATX65 - Bulk Data Entry[1]
- MATX68 - Bulk Data Entry[1]
- MATX70 - Bulk Data Entry[1]
- MATX82 - Bulk Data Entry[1]
- Maximum Bead Width Constrain for Topology Optimization of Oil Pan[1]
- maximum member size control[1]
- MAXMIN - subcase information entry[1]
- MBACT - Bulk Data Entry[1]
- MBCNTDS - Bulk Data Entry[1]
- MBCNTR - Bulk Data Entry[1]
- MBCRV - Bulk Data Entry[1]
- MBCVCV - Bulk Data Entry[1]
- MBDCRV - Bulk Data Entry[1]
- MBDEACT - Bulk Data Entry[1]
- MBD - ESLM[1]
- MBD parameters for ESLM[1]
- MBDSRF - Bulk Data Entry[1]
- MBD system level response optimization[1]
- MBFORCE - I/O Options and Subcase Information Entry[1]
- MBFRC - Bulk Data Entry[1]
- MBFRCC - Bulk Data Entry[1]
- MBFRCE - Bulk Data Entry[1]
- MBLIN - Bulk Data Entry[1]
- MBMNT - Bulk Data Entry[1]
- MBMNTC - Bulk Data Entry[1]
- MBMNTE - Bulk Data Entry[1]
- MBPCRV - Bulk Data Entry[1]
- MBPTCV - Bulk Data Entry[1]
- MBPTDCV - Bulk Data Entry[1]
- MBPTDSF - Bulk Data Entry[1]
- MBREQ - Bulk Data Entry[1]
- MBREQE - Bulk Data Entry[1]
- MBREQM - Bulk Data Entry[1]
- MBSEQ - Bulk Data Entry[1]
- MBSFRC - Bulk Data Entry[1]
- MBSFRCC - Bulk Data Entry[1]
- MBSFRCE - Bulk Data Entry[1]
- MBSIM - Bulk Data Entry[1]
- MBSIMP - Bulk Data Entry[1]
- MBSIM - subcase information entry[1]
- MBSMNT - Bulk Data Entry[1]
- MBSMNTC - Bulk Data Entry[1]
- MBSMNTE - Bulk Data Entry[1]
- MBVAR - Bulk Data Entry[1]
- MCIRON - Bulk Data Entry[1]
- MCOHE - Bulk Data Entry[1]
- MCOHED - Bulk Data Entry[1]
- MDSDIR - I/O Options Entry[1]
- measure sound ration from impacting plates example[1]
- MECHCHECK - I/O Options and Subcase Information Entry[1]
- MEFFMASS - I/O Options Entry[1]
- member size control for topology optimization[1]
- member size control - free-size optimization[1]
- member size control - maximum member size control[1]
- member size control - minimum member size control[1]
- membrane with hot-spot (test no. T1)[1]
- memory allocation[1]
- memory handling - control of used memory[1]
- memory limitations - OptiStruct[1]
- memory limitation - virtual versus physical memory[1]
- memory - solvers[1]
- mesh barrier constraints - free-shape optimization[1]
- METADATA - Bulk Data Entry[1]
- METHOD - subcase information entry[1]
- MFLUID - Bulk Data Entry[1]
- MFLUID - subcase information entry[1]
- MGASK - Bulk Data Entry[1]
- microphone location - radiated sound output analysis[1]
- Microsoft Excel example - external responses[1]
- minimize objective function - design optimization[1]
- minimum member size control[1]
- minmax objective function - design optimization[1]
- MINMAX - subcase information entry[1]
- miscellaneous - I/O Options Entry defaults[1]
- MKAERO1 - Bulk Data Entry[1]
- MKAERO2 - Bulk Data Entry[1]
- MLOAD - Bulk Data Entry[1]
- MLOAD - subcase information entry[1]
- modal and panel participation - coupled frequency response analysis by fourier[1]
- modal complex eigenvalue analysis - rotor dynamics example[1]
- MODALDE - I/O Options and Subcase Information Entry[1]
- modal frequency response analysis[1]
- modal frequency response analysis output[1]
- MODALKE - I/O Options and Subcase Information Entry[1]
- modal participation example[1]
- MODALSE - I/O Options and Subcase Information Entry[1]
- modal transient response output[1]
- MODCHG - Bulk Data Entry[1]
- MODCHG - subcase information entry[1]
- model guidelines - rotor dynamics[1]
- MODEL - I/O Options and Subcase Information Entry[1]
- modeling errors - OptiStruct[1]
- modeling errors - rigid body modes[1]
- modeling techniques - cohesive zone modeling[1]
- modeling techniques - features[1]
- MODELMPC - subcase information entry[1]
- MODESELECT - i/o options and subcase information entry[1]
- MODEWEIGHT - subcase information entry[1]
- MODOUT - Bulk Data Entry[1]
- MODTRAK - subcase information entry[1]
- MOMENT1 - Bulk Data Entry[1]
- MOMENT2 - Bulk Data Entry[1]
- MOMENT - Bulk Data Entry[1]
- MONITOR - i/o options and subcase information entry[1]
- monitor nonlinear structural analysis and structural FSI[1]
- MONPNT1 - Bulk Data Entry[1]
- MONPNT2 - Bulk Data Entry[1]
- MONPNT2 - NDDL item codes[1]
- MONPNT3 - Bulk Data Entry[1]
- MOTION - Bulk Data Entry[1]
- MotionSolve[1]
- MOTION - subcase information entry[1]
- MOTNG - Bulk Data Entry[1]
- MOTNGC - Bulk Data Entry[1]
- MOTNGE - Bulk Data Entry[1]
- MOTNJ - Bulk Data Entry[1]
- MOTNJC - Bulk Data Entry[1]
- MOTNJE - Bulk Data Entry[1]
- MOTNJG - Bulk Data Entry[1]
- MOTNJG - subcase information entry[1]
- move limit adjustments - gradient-based optimization[1]
- MPCADD - Bulk Data Entry[1]
- MPC - Bulk Data Entry[1]
- MPCFORCE - I/O Options and Subcase Information Entry[1]
- MPC - subcase information entry[1]
- MPI, DDM and MMO problems - debug methods[1]
- MSGLMT - I/O Options and Subcase Information Entry[1]
- multiaxial fatigue analysis[1]
- multiaxial fatigue analysis - .rnf file[1]
- multibody dynamic analysis[1]
- multibody dynamics analysis - internal responses[1]
- multibody dynamics analysis tutorials[1]
- multibody dynamics - features[1]
- multibody dynamics simulation[1]
- multi-dimensional table[1]
- multi-model optimization (MMO)[1]
- multi-model optimization (MMO) – design scaling with pattern-repetition in two different C-clips[1]
- multi-model optimization (MMO) – pattern repetition of an excavator arm[1]
- multi-plane symmetric reinforcement optimization for a pressure vessel example[1]
- multiple rotors - rotor dynamics[1]
- multipoint constraint force - punch file[1]
- multiscale model[1]
- multiscale modeling[1]
- multiscale results[1]
- MUMPS - solvers[1]
- N
- N2S contact-based fast contact[1]
- NAFEMS composite benchmark problems[1]
- NAFEMS free vibration problems[1]
- NAFEMS heat transfer problem[1]
- NAFEMS linear elastic problems[1]
- NAFEMS Test 5H – Deep Simply-Supported Beam Harmonic Forced Vibration Response[1]
- NAFEMS Test 5P – Deep Simply-Supported Beam Periodic Forced Vibration Response[1]
- NAFEMS Test 5R – Deep Simply-Supported Beam Random Forced Vibration Response[1]
- NAFEMS Test 5T – Deep Simply-Supported Beam Transient Forced Vibration Response[1]
- NAFEMS Test 13H – Simply-Supported Thin Square Plate Harmonic Forced Vibration Response[1]
- NAFEMS Test 13P – Simply-Supported Thin Square Plate Periodic Forced Vibration Response[1]
- NAFEMS Test 13R – Simply-Supported Thin Square Plate Harmonic Forced Vibration Response[1]
- NAFEMS Test 13T – Simply-Supported Thin Square Plate Transient Forced Vibration Response[1]
- NAFEMS Test 21H – Simply-Supported Thick Square Plate Harmonic Forced Vibration Response[1]
- NAFEMS Test 21P – Simply-Supported Thick Square Plate Periodic Forced Vibration Response[1]
- NAFEMS Test 21R – Simply-Supported Thick Square Plate Random Forced Vibration Response[1]
- NAFEMS Test 21 – Simply-Supported Thick Square Plate[1]
- NAFEMS Test 21T – Simply-Supported Thick Square Plate Transient Forced Vibration Response[1]
- NAFEMS Test No. 13 – simply-supported thin square plate[1]
- nafems test no. FV41 - free cylinder: axi-symmetric vibration[1]
- nafems test no. LE5 - Z-section cantilever[1]
- nafems test no. LE6 - skew plate normal pressure[1]
- nafems test no. LE10 -thick plate pressure[1]
- nafems test no. LE11 - solid cylinder/taper/sphere - temperature[1]
- nafems test no. T1 - membrane with hot-spot[1]
- nafems test no. T4 - two-dimensional heat transfer with convection[1]
- NAFEMS test problem (LE3) - radial point load[1]
- NAFEMS thermo-elastic problems[1]
- NAFEMS Vibrating Cylinder[1]
- NAFEMS Vibrating Sphere[1]
- Nastran[1][2][3][4]
- Nastran punch file (.pch)[1]
- NLADAPT - Bulk Data Entry[1]
- NLADAPT - subcase information entry[1]
- NLENRG - Bulk Data Entry[1]
- NLENRG - subcase information entry[1]
- NLLOAD - I/O Options and Subcase Information Entry[1]
- NLMON - Bulk Data Entry[1]
- NLMON - subcase information entry[1]
- NLOAD1 - Bulk Data Entry[1]
- NLOAD - Bulk Data Entry[1]
- NLOAD - subcase information entry[1]
- NLOUT - Bulk Data Entry[1]
- NLOUT - subcase information entry[1]
- NLPARM - Bulk Data Entry[1]
- NLPARM - subcase information entry[1]
- NLPCI - Bulk Data Entry[1]
- NLPRINT - Bulk Data Entry[1]
- NLPRINT - subcase information entry[1]
- NLRESTART - I/O Options and Subcase Information Entry[1]
- NLRGAP - Bulk Data Entry[1]
- node-to-node discretization[1]
- node-to-surface discretization[1]
- noise vibration and harshness (NVH) analysis - powertrain applications[1]
- NOISEXYZ - I/O Options and Subcase Information Entry[1]
- NOLIN1 - Bulk Data Entry[1]
- NOLIN2 - Bulk Data Entry[1]
- NOLIN3 - Bulk Data Entry[1]
- NOLIN4 - Bulk Data Entry[1]
- nonlinar transient thermal subcase continuation[1]
- nonlinear adaptive criteria and nonlinear intermediate results[1]
- nonlinear analysis information printing controller[1][2]
- nonlinear analysis of cantilever beam example[1]
- nonlinear analysis of cantilever beams with follower forces[1]
- nonlinear analysis of inline-4 engine head example[1]
- nonlinear analysis of rack and pinion using restart[1]
- nonlinear analysis static of wheel rail interface using fast contact[1]
- nonlinear convergence criteria[1]
- nonlinear explicit analysis problem setup[1]
- nonlinear explicit analysis tutorials[1][2]
- nonlinear fatigue analysis[1]
- nonlinear implicit analysis[1]
- nonlinearity sources - nonlinear explicit analysis[1]
- nonlinearity sources - nonlinear static analysis[1]
- nonlinearity sources - nonlinear transient analysis[1]
- nonlinear larg displacement analysis examples[1]
- nonlinear optimization monitoring[1]
- nonlinear penalty curve (nonlinear analysis)[1]
- nonlinear small displacement analysis examples[1]
- nonlinear solution method[1]
- nonlinear static (large displacement) analysis of snap fit assembly using continuous sliding example[1]
- nonlinear static analysis[1]
- nonlinear static analysis - debug methods[1]
- nonlinear static analysis - powertrain applications[1]
- nonlinear static analysis problem setup[1]
- nonlinear static analysis types[1]
- nonlinear static analysis with contacts and pretensioning of bolts example[1]
- nonlinear static analysis with hyperelastic material model, under compression loading and unloading example[1]
- nonlinear steady-state heat transfer analysis[1]
- nonlinear steady-state heat transfer - powertrain applications[1]
- nonlinear structural analysis - monitor[1]
- NONLINEAR - subcase information entry[1]
- nonlinear transient analysis[1]
- nonlinear transient analysis problem setup[1]
- nonlinear transient heat transfer analysis[1]
- nonlinear transient heat transfer analysis - input[1]
- non-reflecting boundary - coupled frequency response analysis by fourier[1]
- non-structural mass elements[1]
- normal modes analysis[1]
- normal modes analysis - governing equations[1]
- normal modes analysis - hi-tech electronic applications[1]
- normal modes analysis - internal responses[1]
- normal modes analysis of a compressor wheel example[1]
- normal modes analysis output[1]
- normal modes with pre-load analysis of chair frame[1]
- NORM - subcase information entry[1]
- no symmetry[1]
- NSGE1 - Bulk Data Entry[1]
- NSGEADD - Bulk Data Entry[1]
- NSGE - Bulk Data Entry[1]
- NSGE - subcase information entry[1]
- NSM1 - Bulk Data Entry[1]
- NSMADD - Bulk Data Entry[1]
- NSM - Bulk Data Entry[1]
- NSML1 - Bulk Data Entry[1]
- NSML - Bulk Data Entry[1]
- NSM - subcase information entry[1]
- NVH applications and techniques[1]
- O
- obsolete entries - configuration file[1]
- offset elements - buckling analysis[1]
- OFREQUENCY - I/O Options and Subcase Information Entry[1]
- OLOAD - I/O Options and Subcase Information Entry[1]
- OMODES - I/O Options and Subcase Information Entry[1]
- one dimensional transient heat transfer (test no. T3)[1]
- one plane - simple symmetry options[1]
- one step thermal transient stress analysis, example[1]
- one step transient thermal stress analysis[1]
- one step transient thermal stress optimization[1]
- optimization algorithms[1]
- optimization - features[1]
- optimization - I/O Options Entry defaults[1]
- optimization model - OptiStruct[1]
- optimization of a cantilever beam modeled with solid elements[1]
- optimization of arbitrary beam sections[1]
- optimization of a two-layer stamped control arm[1]
- optimization of composite structures[1]
- optimization of MBD system level response optimization example[1]
- optimization of the modal frequencies of a disc using constrained beading patterns example[1]
- optimization of thin-walled sections - arbitrary beam[1]
- optimization output files[1]
- optimization output - I/O Options Entry defaults[1]
- optimization output - OUTPUT[1]
- optimization problems - debug methods[1]
- optimization process[1]
- optimization setup - faq[1]
- optimization shape[1]
- optimization size (parameter)[1]
- optimization topography[1]
- optimization topology[1]
- optimization using compose function[1]
- optimization with ESLM - connecting rod of a slider crank example[1]
- optimization with ESLM example problems[1]
- optimization with ESLM - rotating bar example[1]
- optimization with ESLM - rotating shell example[1]
- OptiStruct[1][2]
- OptiStruct compression run[1]
- OptiStruct - faq[1]
- OptiStruct features[1]
- OptiStruct modules[1]
- OptiStruct OUT file (.out)[1]
- OptiStruct reference guide[1]
- OptiStruct SPMD - Linux machines[1]
- OptiStruct SPMD - Windows machines[1]
- OptiStruct tutorials[1]
- OptiStruct User Guide[1]
- OS-E: 0160[1]
- OS-E: 0165[1]
- OS-E: 0170[1]
- OS-E: 0195[1]
- OS-E: 0895 Flat Plate with Thermal Compliance Response[1]
- OS-E: 0896 Multi-Material Topology Optimization of Automotive Cradle[1]
- OS-E: 0897 Multi-Material Topology Optimization of Automotive Chassis[1]
- OS-E: 5010 High Frequency Electromagnetic and Thermal Analysis of Antenna[1]
- OS-E: 8000 3-Point Bending of Phone[1]
- OS-MBD stress recovery[1]
- OS-SL-T: 1000 Nonlinear Analysis of Rubber Ring[1]
- OS-SL-T: 1010 Brake Squeal Analysis[1]
- OS-SL-T: 1020 Fatigue Analysis of Universal Joint[1]
- OS-SL-T: 1030 Preloaded Modal Frequency Response Analysis[1]
- OSSmooth input file example[1]
- OSSmooth parameter file[1]
- OSSmooth - run[1]
- OS-T: 0010 Run OptiStruct from HyperMesh[1]
- OS-T: 1000 Linear Static Analysis of a Plate with a Hole[1]
- OS-T: 1010 Thermal Stress Analysis of a Coffee Pot Lid[1]
- OS-T: 1020 Normal Modes Analysis of a Splash Shield[1]
- OS-T: 1030 3D Inertia Relief Analysis[1]
- OS-T: 1040 3D Buckling Analysis[1]
- OS-T: 1050 Connection of Dissimilar Meshes using CWELD Elements[1]
- OS-T: 1060 Analysis of a Composite Aircraft Structure using PCOMPG[1]
- OS-T: 1070 Analysis of an Axi-symmetric Structure[1]
- OS-T: 1080 Coupled Linear Heat Transfer/Structure Analysis[1][2]
- OS-T: 1085 Linear Steady-state Heat Convection Analysis[1]
- OS-T: 1090 Linear Transient Heat Transfer Analysis of an Extended Surface Heat Transfer Fin[1]
- OS-T: 1100 Thermal Stress Analysis of a Printed Circuit Board with Anisotropic Material Properties[1]
- OS-T: 1110 Setting up a Modal Analysis[1]
- OS-T: 1300 Direct Frequency Response Analysis of a Flat Plate[1]
- OS-T: 1305 Modal Frequency Response Analysis of a Flat Plate[1]
- OS-T: 1310 Direct Transient Dynamic Analysis of a Bracket[1]
- OS-T: 1315 Modal Transient Dynamic Analysis of a Bracket[1]
- OS-T: 1320 Nonlinear Gap Analysis of an Airplane Wing Rib[1]
- OS-T: 1325 Random Response Analysis of a Flat Plate[1]
- OS-T: 1330 Acoustic Analysis of a Half Car Model[1]
- OS-T: 1340 Fatigue (Stress - Life) Method[1]
- OS-T: 1340 Fatigue Process Manager (FPM) using S-N (Stress - Life) Method[1]
- OS-T: 1340 Fatigue using S-N (Stress - Life) Method[1]
- OS-T: 1350 Fatigue (Strain - Life) Method[1]
- OS-T: 1350 Fatigue Process Manager (FPM) using E-N (Strain - Life) Method[1]
- OS-T: 1350 Fatigue using E-N (Strain - Life) Method[1]
- OS-T: 1360 NLSTAT Analysis of Gasket Materials in Contact[1]
- OS-T: 1365 NLSTAT Analysis of Solid Blocks in Contact[1]
- OS-T: 1370 Complex Eigenvalue Analysis of a Reduced Brake System[1]
- OS-T: 1371 Brake Squeal Analysis of Brake Assembly[1]
- OS-T: 1372 Rotor Dynamics of a Hollow Cylindrical Rotor[1]
- OS-T: 1375 Response Spectrum Analysis of a Structure[1]
- OS-T: 1380 Computation of Equivalent Radiated Power[1]
- OS-T: 1385 Heat Transfer Analysis on Piston Rings[1]
- OS-T: 1390: Pretensioned Bolt Analysis of an IC Engine Cylinder Head[1][2]
- OS-T: 1392 Node-to-Surface versus Surface-to-Surface Contact[1]
- OS-T: 1393 Basics of Contact Properties and Debugging[1]
- OS-T: 1394 Axi-Symmetric Ball Joint[1]
- OS-T: 1395 acoustic analysis of speaker using RADSND[1]
- OS-T: 1500: bending of plate[1]
- OS-T: 1510 Follower Loads[1]
- OS-T: 1520 Finite Sliding of Rack and Pinion Gear Model[1]
- OS-T: 1530 Bumper Impact[1]
- OS-T: 1540 Compression of Helical Spring using Self-Contact[1]
- OS-T: 1600 Fluid-Structure Interaction Analysis of Piezoelectric Harvester Assembly[1]
- OS-T: 1610 Thermal Fluid-Structure Interaction Analysis on a Manifold[1]
- OS-T: 1900 Dynamic Analysis of a Three-body Model[1]
- OS-T: 1910 Dynamic Analysis of a Slider Crank with a Flexible Connecting Rod[1]
- OS-T: 1920 Large Displacement Analysis of a Cantilever Beam[1]
- OS-T: 1940 MBD Rigid Contact[1]
- OS-T: 1950 Curve to Curve Constraint[1]
- OS-T: 1960 Define Point to Deformable[1]
- OS-T: 2000 Design Concept for a Structural C-Clip[1]
- OS-T: 2005 Design Concept for a Structural C-Clip with Minimum Member Size Control[1]
- OS-T: 2010 Design Concept for an Automotive Control Arm[1]
- OS-T: 2020 Increase Natural Frequencies of an Automotive Splash Shield with Ribs[1]
- OS-T: 2030 Control Arm Topology Optimization with Draw Direction Constraints[1]
- OS-T: 2040 Spot Weld Reduction using CWELD and 1D[1]
- OS-T: 2050 Pattern Repetition using Topology Optimization[1]
- OS-T: 2060 Symmetry and Draw Direction Applied Simultaneously in Topology Optimization[1]
- OS-T: 2070 Topology Optimization of a Reduced Model using DMIG[1]
- OS-T: 2080 Topology Optimization of a Hook with Stress Constraints[1]
- OS-T: 2090 Extrusion Constraints[1]
- OS-T: 2095 Frequency Response Optimization of a Rectangular Plate[1]
- OS-T: 2098 Excavator Arm Model[1]
- OS-T: 3000 Topography Optimization of a Plate Under Torsion[1]
- OS-T: 3010 Topography Optimization of an L-bracket[1]
- OS-T: 3020 Automatic Recognition of Bead Results of an L-bracket[1]
- OS-T: 3030 Random Response Optimization[1]
- OS-T: 3100 Combined Topology and Topography Optimization of a Slider Suspension[1]
- OS-T: 3200 Optimization-driven Design of a Composite Aircraft Underbelly Fairing[1]
- OS-T: 3300 Using the Lattice Optimization Process[1]
- OS-T: 3400 Design an Open Hole Tension (OHT)[1]
- OS-T: 4000 3D Size Optimization of a Rail Joint[1]
- OS-T: 4010 Size Optimization of a Welded Bracket[1]
- OS-T: 4020 Composite Bike Frame Optimization[1]
- OS-T: 4030 Discrete Size Optimization of a Welded Bracket[1]
- OS-T: 4040 Size Optimization of a Shredder[1]
- OS-T: 4050 Optimization of a Horizontal Tail Plane[1]
- OS-T: 4070 Free-sizing Nonlinear Gap Optimization on an Airplane Wing Rib[1]
- OS-T: 4080 Minimization of the Maximum Stress of a Rotating Bar: A Size Optimization[1]
- OS-T: 4090 Manufacturing Constraints in a Free-size Optimization of a Composite Structure[1]
- OS-T: 4095 Size Optimization using External Responses (DRESP3)[1]
- OS-T: 5000 2D Shape Optimization of a Cantilever Beam[1]
- OS-T: 5010 Cantilever L-beam Shape Optimization[1]
- OS-T: 5020 3D Bracket Model using the Free-shape Method[1]
- OS-T: 5030 Buckling Optimization of a Structural Rail[1]
- OS-T: 5040 Rail Joint[1]
- OS-T: 5050 4 Bar Linkage[1]
- OS-T: 5060 3D Model using the Free-shape Method with Manufacturing Constraints[1]
- OS-T: 5070 Fatigue Optimization of a Torque Control Arm[1]
- OS-T: 5080 Global Search Optimization[1]
- OS-T: 5090 Thermal Optimization on Aluminum Fins[1]
- OS-T: 5100 Stress Response based on Neuber Correction Method[1]
- OS-T: 6010 Multiaxial Fatigue Analysis (Damage Calculation) using S-N Approach[1]
- OS-T: 6020 Multiaxial Fatigue Analysis (strain - life ) using E-N Approach[1]
- OS-T: 6030 seam weld fatigue[1]
- OS-T: 6030 seam weld fatigue (FPM) using S-N method[1]
- OS-T: 6030 seam weld fatigue using S-N method[1]
- OS-T: 6040 Spot Weld Fatigue[1]
- OS-T: 6050 Dang Van Criterion (Factor of Safety[1]
- OS-T: 6060 Random Response Fatigue Analysis[1]
- OS-T: 6070 Random Response Fatigue Analysis (EN Fatigue[1]
- OS-T: 6080 Sine Sweep Fatigue Analysis (SN Damage)[1]
- OS-T: 6090 Sine Sweep Fatigue Analysis (EN Damage)[1]
- OS-T: 6100 seam weld fatigue using FPM[1]
- OS-T: 7000 phone drop test analysis[1]
- OS-T: 9000 OptiStruct and VABS Integration[1]
- OS-V: 0270 torsional creep of circular shaft[1]
- OS-V: 0280 Axisymmetric Elements - Interference Fit Between Two Cylinders[1]
- OS-V: 0290 Lee's Frame Postbuckling[1]
- OS-V: 0900 Constant Amplitude Stress-Life Analysis[1]
- OS-V: 1000 Complex Eigenvalue Analysis of Rotor Bearing[1]
- OS-V: 1010 Complex Eigenvalue Analysis of Rotor Bearing[1]
- OS-V: 1100 transmission loss in a muffler[1]
- OS-V: 1200 Bar Impact[1]
- other factors affecting fatigue[1]
- other output controllers - I/O Options Entry defaults[1]
- OTIME - I/O Options and Subcase Information Entry[1]
- OUTFILE - I/O Options and Subcase Information Entry[1]
- output[1]
- output2 file (.op2[1]
- output - cohesive zone modeling[1]
- output data[1]
- output files - general run and troubleshooting info[1]
- output files generated by the optimization process[1]
- output files - OptiStruct[1]
- output format controls[1]
- output from contact analysis[1]
- OUTPUT - I/O Options and Subcase Information Entry[1]
- OUTPUT - I/O Options Entry[1]
- output - linear transient analysis by fourier transformation[1]
- output - modal frequency response analysis[1]
- output - normal modes analysis[1]
- output request[1]
- output request - ACCELERATION[1]
- output request - acoustic intensity[1]
- output request - CSTRESS[1]
- output request - DISPLACEMENT[1]
- output requests and ESLM[1]
- output request - STRAIN[1]
- output request - VELOCITy[1]
- overlap - seam weld fatigue analysis[1]
- overview[1]
- P
- P2G - subcase information entry[1]
- P2GSUB - subcase information entry[1]
- PAABSF - Bulk Data Entry[1]
- PACABS - Bulk Data Entry[1]
- PACINF - Bulk Data Entry[1]
- PAERO1 - Bulk Data Entry[1]
- PAFLUID - Bulk Data Entry[1]
- PANEL - Bulk Data Entry[1]
- PANELG - Bulk Data Entry[1]
- PARAM, ACMODL12- Bulk Data Entry[1]
- PARAM, AGGPCH - Bulk Data Entry[1]
- PARAM, AKUSMOD - Bulk Data Entry[1]
- PARAM, ALLFT - Bulk Data Entry[1]
- PARAM, ALPHA1 - Bulk Data Entry[1]
- PARAM, ALPHA1FL - Bulk Data Entry[1]
- PARAM, ALPHA2 - Bulk Data Entry[1]
- PARAM, ALPHA2FL - Bulk Data Entry[1]
- PARAM, AMLSASPC - Bulk Data Entry[1]
- PARAM, AMLS - Bulk Data Entry[1]
- PARAM, AMLSMAXR - Bulk Data Entry[1]
- PARAM, AMLSMEM - Bulk Data Entry[1]
- PARAM, AMLSNCPU - Bulk Data Entry[1]
- PARAM, AMLSUCON - Bulk Data Entry[1]
- PARAM, AMSE4CMS - Bulk Data Entry[1]
- PARAM, AMSE4EFM - Bulk Data Entry[1]
- PARAM, AMSESLM - Bulk Data Entry[1]
- PARAM, ASCOUP - Bulk Data Entry[1]
- PARAM, AUNITS - Bulk Data Entry[1]
- PARAM, AUTOMSET - Bulk Data Entry[1]
- PARAM, AUTOSPC - Bulk Data Entry[1]
- PARAM, AUTOSPRT - Bulk Data Entry[1]
- PARAM, AXCYSYM - Bulk Data Entry[1]
- param, beamalt - Bulk Data Entry[1]
- PARAM, BUFFSIZE - Bulk Data Entry[1]
- PARAM, BUSHRLMT - Bulk Data Entry[1]
- PARAM, BUSHSTIF - Bulk Data Entry[1]
- PARAM, BUSHTLMT - Bulk Data Entry[1]
- PARAM, CB2 - Bulk Data Entry[1]
- PARAM, CDITER - Bulk Data Entry[1]
- PARAM, CDPCH - Bulk Data Entry[1]
- PARAM, CDPRT - Bulk Data Entry[1]
- PARAM, CHECKEL - Bulk Data Entry[1]
- PARAM, CHECKMAT - Bulk Data Entry[1]
- PARAM, CHKELSET - Bulk Data Entry[1]
- PARAM, CHKGPDIR- Bulk Data Entry[1]
- PARAM, CK2 - Bulk Data Entry[1]
- PARAM, CK3 - Bulk Data Entry[1]
- PARAM, CM2 - Bulk Data Entry[1]
- PARAM, CMFTINIT - Bulk Data Entry[1]
- PARAM, CMFTSTEP - Bulk Data Entry[1]
- PARAM, CMSALOAD - Bulk Data Entry[1]
- PARAM, CMSDIRM - Bulk Data Entry[1]
- PARAM, CMSOFST - Bulk Data Entry[1]
- PARAM, CNST4FAT - Bulk Data Entry[1]
- PARAM, COEFFC - Bulk Data Entry[1]
- PARAM, COMP2SHL - Bulk Data Entry[1]
- PARAM, COMPSHST - Bulk Data Entry[1]
- PARAM, CONTFEL - Bulk Data Entry[1]
- PARAM, COUPMASS - Bulk Data Entry[1]
- PARAM, CP2 - Bulk Data Entry[1]
- PARAM, CRTELEM - Bulk Data Entry[1]
- PARAM, CSTEVAL - Bulk Data Entry[1]
- PARAM, CSTOL - Bulk Data Entry[1]
- PARAM, CTSTF4PL - Bulk Data Entry[1]
- PARAM, CURVSHL2 - Bulk Data Entry[1]
- PARAM, DDMNGRPS - Bulk Data Entry[1]
- PARAM, DFREQ - Bulk Data Entry[1]
- PARAM, DISIFMCK - Bulk Data Entry[1]
- PARAM, DISJOINT - Bulk Data Entry[1]
- PARAM, DISPFIC - Bulk Data Entry[1]
- PARAM, DSZERO - Bulk Data Entry[1]
- PARAM, DUPTOL - Bulk Data Entry[1]
- PARAM, EDGESTR - Bulk Data Entry[1]
- PARAM, EFFMAS - Bulk Data Entry[1]
- PARAM, EHD - Bulk Data Entry[1]
- PARAM, ELASRLMT - Bulk Data Entry[1]
- PARAM, ELASSTIF - Bulk Data Entry[1]
- PARAM, ELASTLMT - Bulk Data Entry[1]
- PARAM, ENFMETH - Bulk Data Entry[1]
- PARAM, ENFMOTN - Bulk Data Entry[1]
- PARAM, EPZERO - Bulk Data Entry[1]
- PARAM, ERPAREA - Bulk Data Entry[1]
- PARAM, ERPC - Bulk Data Entry[1]
- PARAM, ERPREFDB - Bulk Data Entry[1]
- PARAM, ERPRHO - Bulk Data Entry[1]
- PARAM, ERPRLF - Bulk Data Entry[1]
- PARAM, EXCEXB - Bulk Data Entry[1]
- PARAM, EXCOP2 - bulk data entry[1]
- PARAM, EXPERTNL - Bulk Data Entry[1]
- PARAM, EXPISOP - Bulk Data Entry[1]
- PARAM, EXTOUT - Bulk Data Entry[1]
- PARAM, FASTCONT - Bulk Data Entry[1]
- PARAM, FASTFR - Bulk Data Entry[1]
- PARAM, FFRS - Bulk Data Entry[1]
- PARAM, FFRSLFREQ - Bulk Data Entry[1]
- PARAM, FFRSMEM - Bulk Data Entry[1]
- PARAM, FFRSNCPU - Bulk Data Entry[1]
- PARAM, FIXRBE3 - Bulk Data Entry[1]
- PARAM, FLEXH3D - Bulk Data Entry[1]
- PARAM, FLIPOK - Bulk Data Entry[1]
- PARAM, FLLWER - Bulk Data Entry[1]
- PARAM, FRIC - Bulk Data Entry[1]
- PARAM, FZERO - Bulk Data Entry[1]
- PARAM, GAPOFFST - Bulk Data Entry[1]
- PARAM, G - Bulk Data Entry[1]
- PARAM, GE4FRSTF - Bulk Data Entry[1]
- PARAM, GE4TRSTF - Bulk Data Entry[1]
- PARAM, GE_MOD - Bulk Data Entry[1]
- PARAM, GFL - Bulk Data Entry[1]
- PARAM, GLOBEXPT - Bulk Data Entry[1]
- PARAM, GMAR1 - Bulk Data Entry[1]
- PARAM, GMAR - Bulk Data Entry[1]
- PARAM, GPSLOC - Bulk Data Entry[1]
- PARAM, GRDPNT - Bulk Data Entry[1]
- PARAM, GRDPNTCM - Bulk Data Entry[1]
- PARAM, GRIDFORM - Bulk Data Entry[1]
- PARAM, GYRO1D - Bulk Data Entry[1]
- PARAM, GYROAVG - Bulk Data Entry[1]
- PARAM, GYROTIMO - Bulk Data Entry[1]
- PARAM, HASHASSM - Bulk Data Entry[1]
- PARAM, HDF5[1]
- PARAM, HFREQ - Bulk Data Entry[1]
- PARAM, HFREQFL - Bulk Data Entry[1]
- PARAM, HGHCMPOK - Bulk Data Entry[1]
- PARAM, HOURGLS - Bulk Data Entry[1]
- PARAM, I64SLV - Bulk Data Entry[1]
- PARAM, IMPLOUT - Bulk Data Entry[1]
- PARAM, INREL - Bulk Data Entry[1]
- PARAM, INRGAP - Bulk Data Entry[1]
- PARAM, INTRFACE - Bulk Data Entry[1]
- PARAM, IR4NLCON - Bulk Data Entry[1]
- PARAM, ISTRSBAL - Bulk Data Entry[1]
- PARAM, ITAPE - Bulk Data Entry[1]
- PARAM, K4CUTOFF - Bulk Data Entry[1]
- PARAM, K4METH - Bulk Data Entry[1]
- PARAM, KDAMP - Bulk Data Entry[1]
- PARAM, KGRGD - Bulk Data Entry[1]
- PARAM, KISSSOFT - Bulk Data Entry[1]
- PARAM, KTPLAST - Bulk Data Entry[1]
- PARAM, LFREQ - Bulk Data Entry[1]
- PARAM, LFREQFL - Bulk Data Entry[1]
- PARAM, LFREQH3D - Bulk Data Entry[1]
- PARAM, LGDISP - Bulk Data Entry[1]
- PARAM, LMSOUT - Bulk Data Entry[1]
- PARAM, LOWRANK - Bulk Data Entry[1]
- PARAM, LSNLEXP - Bulk Data Entry[1]
- PARAM, MASSDMIG - Bulk Data Entry[1]
- PARAM, MAXDAMP - Bulk Data Entry[1]
- PARAM, MAXRATIO - Bulk Data Entry[1]
- PARAM, MBDH3D - Bulk Data Entry[1]
- PARAM, MBDREC - Bulk Data Entry[1]
- PARAM, MCHGRMV - Bulk Data Entry[1]
- PARAM, MDK4OPT - Bulk Data Entry[1]
- PARAM, MEMTRIM - Bulk Data Entry[1]
- PARAM, MFILTER - Bulk Data Entry[1]
- PARAM, MODETRAK - Bulk Data Entry[1]
- PARAM, MVASPCON - Bulk Data Entry[1]
- PARAM, NBZRCSR - Bulk Data Entry[1]
- PARAM, NEGMASS - Bulk Data Entry[1]
- PARAM, NEWCRD - Bulk Data Entry[1]
- PARAM, NLAFILE - Bulk Data Entry[1]
- PARAM, NLFAT - Bulk Data Entry[1]
- PARAM, NLINISOL - Bulk Data Entry[1]
- PARAM, NLMON - Bulk Data Entry[1]
- PARAM, NLRFILE - Bulk Data Entry[1]
- PARAM, NLRUN - Bulk Data Entry[1]
- PARAM, NOUTCYC - Bulk Data Entry[1]
- PARAM, NPRBAR - Bulk Data Entry[1]
- PARAM, NPRBE2 - Bulk Data Entry[1]
- PARAM, NPRGDE - Bulk Data Entry[1]
- PARAM, NUMEG - Bulk Data Entry[1]
- PARAM, ODS - Bulk Data Entry[1]
- PARAM, OGEOM - Bulk Data Entry[1]
- PARAM, OMACHPR - Bulk Data Entry[1]
- PARAM, OMID - Bulk Data Entry[1]
- PARAM, OP2GM34 - Bulk Data Entry[1]
- PARAM, ORIGK4[1]
- PARAM, OSTTSPRT - Bulk Data Entry[1]
- PARAM, PBTFCAP[1]
- PARAM, PBUSHT - Bulk Data Entry[1]
- PARAM, PBUSHTF - Bulk Data Entry[1]
- param, peactdmg - Bulk Data Entry[1]
- PARAM, PELAST - Bulk Data Entry[1]
- PARAM, PLIGEXT - Bulk Data Entry[1]
- PARAM, PNLSIZ - Bulk Data Entry[1]
- PARAM, POST - Bulk Data Entry[1]
- PARAM, POSTEXT - Bulk Data Entry[1]
- PARAM, PRESUBNL - Bulk Data Entry[1][2]
- PARAM, PRGPST - Bulk Data Entry[1]
- PARAM, PRINFACC - Bulk Data Entry[1]
- PARAM, PRTDES - Bulk Data Entry[1]
- PARAM, PRTMGG - Bulk Data Entry[1]
- PARAM, PRTNORM - Bulk Data Entry[1]
- PARAM, PRTRENUM - Bulk Data Entry[1]
- PARAM, PRTRET - Bulk Data Entry[1]
- PARAM, PSDPRINC - Bulk Data Entry[1]
- PARAM, RBE2FREE - Bulk Data Entry[1]
- PARAM, RBE3COL - Bulk Data Entry[1]
- PARAM, RBE3FREE - Bulk Data Entry[1]
- PARAM, RBMEIG - Bulk Data Entry[1]
- PARAM, REANAL - Bulk Data Entry[1]
- PARAM, RECOVER - Bulk Data Entry[1]
- PARAM, REFPNT - Bulk Data Entry[1]
- PARAM, RENUMOK - Bulk Data Entry[1]
- PARAM, RFIOUT - Bulk Data Entry[1]
- PARAM, RHOCP - Bulk Data Entry[1]
- PARAM, RICARDO - Bulk Data Entry[1]
- PARAM, ROMAX - Bulk Data Entry[1]
- PARAM, RSPLICOR - Bulk Data Entry[1]
- PARAM, S2K - Bulk Data Entry[1]
- PARAM, SBTOLRTR - Bulk Data Entry[1]
- PARAM, SEP1XOVR - Bulk Data Entry[1]
- PARAM, SEPLOT - Bulk Data Entry[1]
- PARAM, SH4NRP - Bulk Data Entry[1]
- PARAM, SHELLLG[1]
- PARAM, SHELLTI - Bulk Data Entry[1]
- PARAM, SHELOS11 - Bulk Data Entry[1]
- PARAM, SHL2MEM - Bulk Data Entry[1]
- PARAM, SHPBCKOR - Bulk Data Entry[1]
- PARAM, SIGMA - Bulk Data Entry[1]
- PARAM, SIMPACK - Bulk Data Entry[1]
- PARAM, SIMVER - Bulk Data Entry[1]
- PARAM, SMDISP - Bulk Data Entry[1]
- PARAM, SNAPTHRU - Bulk Data Entry[1]
- PARAM, SORTCON - Bulk Data Entry[1]
- PARAM, SPLC - Bulk Data Entry[1]
- PARAM, SPLFAC - Bulk Data Entry[1]
- PARAM, SPLREFDB - Bulk Data Entry[1]
- PARAM, SPLRHO - Bulk Data Entry[1]
- PARAM, SRCOMPS - Bulk Data Entry[1]
- PARAM, SS2GCR - Bulk Data Entry[1]
- PARAM, STRTHR - Bulk Data Entry[1]
- PARAM, TABS - Bulk Data Entry[1]
- PARAM, TCLTINIT - Bulk Data Entry[1]
- PARAM, TCLTSTEP - Bulk Data Entry[1]
- PARAM, THCNTPEN - Bulk Data Entry[1]
- PARAM, THMLSTN - Bulk Data Entry[1]
- PARAM, TOLRSC - Bulk Data Entry[1]
- PARAM, TPS - Bulk Data Entry[1]
- PARAM, TRAKMETH - Bulk Data Entry[1]
- PARAM, TRAKMTX - Bulk Data Entry[1]
- PARAM, UCORD - Bulk Data Entry[1]
- PARAM, UFREQH3D - Bulk Data Entry[1]
- PARAM, UHT - Bulk Data Entry[1]
- param, unsm2sm - Bulk Data Entry[1]
- PARAM, UNSYMSLV - Bulk Data Entry[1]
- PARAM, VMMASS - Bulk Data Entry[1]
- PARAM, VMOPT - Bulk Data Entry[1]
- PARAM, VREF - Bulk Data Entry[1]
- PARAM, W3 - Bulk Data Entry[1]
- PARAM, W4 - Bulk Data Entry[1]
- PARAM, WR3 - Bulk Data Entry[1]
- PARAM, WR4 - Bulk Data Entry[1]
- PARAM, WRH - Bulk Data Entry[1]
- PARAM, WTMASS - Bulk Data Entry[1]
- PARAM, XPOST - Bulk Data Entry[1]
- PARAM - Bulk Data Entry[1]
- parameters by function[1]
- parameters for ESLM - nonlinear response optimization[1]
- parts and instances - connectivity[1]
- parts and instances - OptiStruct[1]
- parts and instances - parts[1]
- pattern grouping - circular[1]
- pattern grouping - cyclical[1]
- pattern grouping - cylindrical[1]
- pattern grouping - linear[1]
- pattern grouping - none[1]
- Pattern Grouping Options[1]
- pattern grouping - planar[1]
- pattern grouping - radial 2D[1]
- pattern grouping - radial 2D and linear[1]
- pattern grouping - radial 3D[1]
- pattern grouping - topology optimization[1]
- pattern grouping - vector defined[1]
- pattern repetition for topography optimization[1]
- pattern repetition for topology optimization[1]
- pattern repetition - free-size[1]
- PAXI - Bulk Data Entry[1]
- PBAR - Bulk Data Entry[1]
- PBARL - Bulk Data Entry[1]
- PBARX - Bulk Data Entry[1]
- PBEAM - Bulk Data Entry[1]
- PBEAML - Bulk Data Entry[1]
- PBEAMX - Bulk Data Entry[1]
- PBUSH1D - Bulk Data Entry[1]
- PBUSH - Bulk Data Entry[1]
- PBUSHFX - Bulk Data Entry[1]
- PBUSHT - Bulk Data Entry[1]
- PCG - solvers[1]
- PCNTX2 - Bulk Data Entry[1]
- PCNTX7 - Bulk Data Entry[1]
- PCNTX11 - Bulk Data Entry[1]
- PCNTX20 - Bulk Data Entry[1]
- PCNTX24 - Bulk Data Entry[1]
- PCOHE - Bulk Data Entry[1]
- PCOMP - Bulk Data Entry[1]
- PCOMPG - Bulk Data Entry[1]
- PCOMPLS - Bulk Data Entry[1]
- PCOMPP - Bulk Data Entry[1]
- PCOMPX - Bulk Data Entry[1]
- PCONT - Bulk Data Entry[1]
- PCONTHT - Bulk Data Entry[1]
- PCONTX - Bulk Data Entry[1]
- PCONV - Bulk Data Entry[1]
- PCONVLIB - Bulk Data Entry[1]
- PDAMP - Bulk Data Entry[1]
- PEAKOUT - Bulk Data Entry[1]
- PEAKOUT - subcase information entry[1]
- PELAS - Bulk Data Entry[1]
- PELASFX - Bulk Data Entry[1]
- PELAST - Bulk Data Entry[1]
- penalty-based contact[1]
- PERBC - Bulk Data Entry[1]
- performance of speaker model - hi-tech electronic applications[1]
- periodic boundary conditions example[1]
- PFAST - Bulk Data Entry[1]
- PFAT - Bulk Data Entry[1]
- PFATSMW - Bulk Data Entry[1]
- PFATSPW - Bulk Data Entry[1]
- PFBODY - Bulk Data Entry[1]
- PFGRID - I/O Options Entry[1]
- PFMODE - I/O Options Entry[1]
- PFPANEL - I/O Options and Subcase Information Entry[1]
- PFPATH - Bulk Data Entry[1]
- PFPATH - I/O Options and Subcase Information Entry[1]
- PGAP - Bulk Data Entry[1]
- PGAPHT - Bulk Data Entry[1]
- PGASK - Bulk Data Entry[1]
- phase transitions in the optimization of composite structures[1]
- PHFSHL - Bulk Data Entry[1]
- phone drop simulation - hi-tech electronic applications[1]
- pin-ended double cross (Test No. FV2)[1]
- PJOINTG - Bulk Data Entry[1]
- plate in torsion example - topography optimization[1]
- plate with central hole using NLOUT example[1]
- platforms - OptiStruct[1]
- platform support[1]
- PLOAD1 - Bulk Data Entry[1]
- PLOAD2 - Bulk Data Entry[1]
- PLOAD4 - Bulk Data Entry[1]
- PLOAD - Bulk Data Entry[1]
- PLOADE1 - Bulk Data Entry[1]
- PLOADSF - Bulk Data Entry[1]
- PLOADX1- Bulk Data Entry[1]
- plot convergence during analysis[1][2][3]
- PLOTEL3 - Bulk Data Entry[1]
- PLOTEL4 - Bulk Data Entry[1]
- PLOTEL - Bulk Data Entry[1]
- PLSOLID - Bulk Data Entry[1]
- ply-based laminate modeling[1]
- PLY - Bulk Data Entry[1]
- PMASS - Bulk Data Entry[1]
- point force[1]
- poroelastic materials[1]
- poroelastic materials supported solution sequences[1]
- porosity control - lattice structure optimization[1]
- post-process - features[1]
- post-process - OptiStruct[1]
- post-process transfer path analysis[1]
- POST - subcase information entry[1]
- potential-based method - cohesive zone modeling[1]
- POWERFLOW - I/O Options Entry[1]
- powertrain applications[1]
- PPLANE - Bulk Data Entry[1]
- PRBODY - Bulk Data Entry[1]
- preloaded modal frequency response analysis[1]
- preload to linear subcases example[1]
- pre-process - features[1]
- pre-process - OptiStruct[1]
- PRESSURE - I/O Options and Subcase Information Entry[1]
- prestressed complex eigenvalue analysis[1]
- prestressed linear analysis[1]
- prestressed linear analysis results[1]
- prestressed linear analysis types[1]
- prestressed normal modes analysis[1]
- prestressed static analysis[1]
- PRETBOLT - I/O Options and Subcase Information Entry[1]
- PRETENS - Bulk Data Entry[1]
- pretension analysis of piston[1]
- pretension analysis using gasket material example[1]
- pretensioned bolt analysis[1]
- pretensioned bolt analysis comments[1]
- PRETENSION - subcase information entry[1]
- PRETPRM, INILOAD[1]
- PRETPRM, PRTSW[1]
- PRETPRM - Bulk Data Entry[1]
- previous (OS3.5) input format[1]
- previously supported input[1]
- problem formulation - free-size optimization[1]
- problem setup - nonlinear explicit analysis[1]
- problem setup - nonlinear static analysis[1]
- problem setup - nonlinear transient analysis[1]
- PROD - Bulk Data Entry[1]
- properties for CAERO1 panels[1]
- PROPERTY - I/O Options and Subcase Information Entry[1]
- PSD and RMS responses[1]
- PSEAM - Bulk Data Entry[1]
- PSEC - Bulk Data Entry[1]
- PSHEAR - Bulk Data Entry[1]
- PSHELL - Bulk Data Entry[1]
- PSHELLX - Bulk Data Entry[1]
- PSLDX6 - Bulk Data Entry[1]
- PSOLID - Bulk Data Entry[1]
- PSOLIDX - Bulk Data Entry[1]
- PSURF - Bulk Data Entry[1]
- PTADD - Bulk Data Entry[1]
- PTADJS1 - Bulk Data Entry[1]
- PTADJST - Bulk Data Entry[1]
- PTFORC1 - Bulk Data Entry[1]
- PTFORCE - Bulk Data Entry[1]
- PTUBE - Bulk Data Entry[1]
- punch file - acceleration[1]
- punch file - displacement[1]
- punch file - force[1]
- punch file - multipoint constraint force[1]
- punch files - OptiStruct[1]
- punch file - stress[1]
- punch file - velocity[1]
- PVISC - Bulk Data Entry[1]
- PWELD - Bulk Data Entry[1]
- Q
- QBDY1 - Bulk Data Entry[1]
- QBDYLIB - bulk data entry[1]
- quasi-static analysis - MBD[1]
- QVOL - Bulk Data Entry[1]
- QVOLLIB - Bulk Data Entry[1]
- R
- Raasch challenge - curved strip hook[1]
- RADBC - Bulk Data Entry[1]
- radial 2d and linear pattern grouping[1]
- radial (3d) pattern grouping[1]
- radial point load on a hemisphere (LE3) verification problem[1]
- radial stretching of cylinder[1]
- radiated sound output analysis[1]
- radiated sound output analysis - at microphone location[1]
- radiated sound output analysis - source grid location[1]
- radiated sound output analytical background[1]
- RADM - Bulk Data Entry[1]
- RADPRM, HMMOVE - Bulk Data Entry[1]
- RADPRM, HMNAME - Bulk Data Entry[1]
- RADPRM, NLAFILE - Bulk Data Entry[1]
- RADPRM, NLRFILE - Bulk Data Entry[1]
- RADPRM, NLRUN - Bulk Data Entry[1]
- RADPRM, RBE2RBD - Bulk Data Entry[1]
- RADPRM, SNAPTHRU - Bulk Data Entry[1]
- RADPRM, XPENTA15 - Bulk Data Entry[1]
- RADPRM - Bulk Data Entry[1]
- RADSND - Bulk Data Entry[1]
- RADSND - subcase information entry[1]
- random response analysis[1]
- random response analysis - example results[1]
- random response analysis - internal responses[1][2]
- random response analysis plot output[1]
- random response analysis results output[1]
- random response analysis setup[1]
- random response fatigue analysis[1]
- random response fatigue analysis - .rnf file[1]
- random response fatigue analysis input[1]
- random response - I/O Options Entry defaults[1]
- random spectrum analysis governing equations[1]
- RANDOM - subcase information entry[1]
- random vibration analysis - hi-tech electronic applications[1]
- RANDPS - Bulk Data Entry[1]
- RANDT1 - Bulk Data Entry[1]
- RBADD - Bulk Data Entry[1]
- RBAR - Bulk Data Entry[1]
- RBE2 - Bulk Data Entry[1]
- RBE2GS - Bulk Data Entry[1]
- RBE3 - Bulk Data Entry[1]
- RBODY - Bulk Data Entry[1]
- RBODY - I/O Options and Subcase Information Entry[1]
- RCROSS - Bulk Data Entry[1]
- RCROSS - I/O Options and Subcase Information Entry[1]
- Recover MBD Analysis Results[1]
- rectangular composite panel example[1]
- rectangular pressure vessel example - topography optimization[1]
- RecurDyn[1]
- reference plane for quadrilateral element or face[1]
- References - OptiStruct[1]
- relaxation at constant twist - verification[1]
- reliability-based design optimization[1]
- reliability-based design optimization - implementation[1]
- reliability-based topology optimization of a plate, example[1]
- relocation - parts and instances[1]
- relocation - thickness mapping[1]
- RELOC - Bulk Data Entry[1]
- RENERGY - subcase information entry[1]
- REPCASE - subcase information entry[1]
- REPGLB - subcase information entry[1]
- REPSUB - subcase information entry[1]
- requestg radiated sound output guide[1]
- REQUEST - I/O Options and Subcase Information Entry[1]
- request linear transient heat transfer analysis[1]
- requirements for restarting OptiStruct[1]
- response spectrum analysis[1]
- response spectrum analysis (RSA) optimization example[1]
- response spectrum analysis example[1]
- response spectrum analysis input specification[1]
- RESPRINT - I/O Options and Subcase Information Entry[1]
- RESTART - I/O Options and Subcase Information Entry[1]
- restart of NLSTAT followed by complex eigenvalue analysis[1]
- restart OptiStruct requirements[1]
- RESTARTR - I/O options entry[1]
- RESTARTW - I/O Options and Subcase Information Entry[1]
- RESULTANT - I/O Options and Subcase Information Entry[1]
- result files - transfer path analysis[1]
- RESULTS -I/O Options Entry[1]
- results of a finite element analysis[1]
- results of multibody dynamic analysis[1]
- results output by OptiStruct[1]
- results - thermal analysis[1]
- RESVEC - subcase information entry[1]
- retrieve normal modes analysis results[1]
- revolute joint using JOINTG and MOTNJG[1]
- RFORCE - Bulk Data Entry[1]
- RGYRO - Bulk Data Entry[1]
- RGYRO - subcase information entry[1]
- Ricardo[1]
- rigid body modes - modeling errors[1]
- rigid body motion grounding check[1]
- rigid body motion weight checking[1]
- rigid elements and multi-point constraints[1]
- RIGID - I/O Options and Subcase Information Entry[1]
- RJOINT - Bulk Data Entry[1]
- RLOAD1 - Bulk Data Entry[1]
- RLOAD2 - Bulk Data Entry[1]
- RNFLOW - I/O Options and Subcase Information Entry[1]
- ROMAX[1]
- rotating bar example - optimization with ESLM[1]
- rotating shell example - optimization with ESLM[1]
- ROTATION - I/O Options Entry[1]
- rotor dynamics[1]
- rotor dynamics - direct transient response analysis[1]
- rotor dynamics linear static analysis example[1]
- rotor dynamics modal complex eigenvalue analysis example[1]
- ROTORG - Bulk Data Entry[1][2]
- rotor superelements - rotor dynamics[1]
- rotor unbalance example[1]
- RROD - Bulk Data Entry[1]
- RSPEC - Bulk Data Entry[1]
- RSPEC - subcase information entry[1]
- RSPEED - Bulk Data Entry[1]
- RSPINR - Bulk Data Entry[1]
- RSPINT - Bulk Data Entry[1]
- RSPLINE - Bulk Data Entry[1]
- RSSCON - Bulk Data Entry[1]
- rubber ring: crush and slide using self-contact[1]
- rules for substituion - symbolic substitution[1]
- run controls - I/O Options Entry defaults[1]
- run FSI[1]
- run modal frequency response analysis[1]
- run options[1]
- run OptiStruct[1]
- run OptiStruct at the command line[1]
- run OptiStruct - faq[1]
- run OSSmooth[1]
- run OSSmooth from HyperMesh OSSmooth Panel[1]
- runtime monitoring - nonlinear optimization[1]
- runtime monitoring - OptiStruct[1]
- run transfer path analysis[1]
- RVDOF1[1]
- RVDOF - Bulk Data Entry[1]
- RWALADD - Bulk Data Entry[1]
- RWALL - Bulk Data Entry[1]
- RWALL - subcase information entry[1]
- S
- SACCELERATION - I/O Options and Subcase Information Entry[1]
- sandwich shell (Test No: R0031/3)[1]
- save normal modes analysis results[1]
- scalability - solvers[1]
- Scordelis-Lo roof verification problem[1]
- SCREEN - I/O Options and Subcase Information Entry[1]
- SDAMPING - subcase information entry[1]
- SDISPLACEMENT - I/O Options and Subcase Information Entry[1]
- SEALL - subcase information entry[1]
- seam weld fatigue analysis[1]
- seam weld fatigue analysis and size optimization of a frame structure[1]
- seam weld fatigue analysis implementation[1]
- seam weld fatigue analysis input/output[1]
- SEBULK - Bulk Data Entry[1]
- SECONCT - Bulk Data Entry[1]
- SECSET1 - Bulk Data Entry[1]
- SECSET - Bulk Data Entry[1]
- SECT - Bulk Data Entry[1]
- SECTION - Bulk Data Entry[1]
- SEDR - subcase information entry[1]
- SEINTPNT - subcase information entry[1]
- SELOC - Bulk Data Entry[1]
- sensitivity analysis - gradient-based optimization[1]
- SENSITIVITY - I/O Options and Subcase Information Entry[1]
- SENSOR - Bulk Data Entry[1]
- SENSOUT - I/O Options and Subcase Information Entry[1]
- SEQSET1 - Bulk Data Entry[1]
- SEQSET - Bulk Data Entry[1]
- SESET - Bulk Data Entry[1]
- SET1 - Bulk Data Entry[1]
- SET3 - Bulk Data Entry[1]
- SET/PSET - I/O Options and Subcase Information Entry[1]
- set analysis parameters to include an external field[1]
- SET - Bulk Data Entry[1]
- SETREE - Bulk Data Entry[1]
- setup transfer path analysis[1]
- shape and size optimization of a plate bending example[1]
- SHAPE - I/O Options and Subcase Information Entry[1]
- shape optimization[1]
- shape optimization example problems[1]
- shape optimization - features[1]
- shape optimization - introductory example[1]
- shape optimization of an oil pan using ERP response[1]
- shape optimization of a solid control arm example[1]
- shape optimization of a stamped hat section example[1]
- shape optimization of connecting rod with fatigue[1]
- shape optimization on a cylinder block with bore distortion responses[1]
- shape optimization on a cylinder head with fatigue responses[1]
- shape optimization results[1]
- shape optimization tutorials[1]
- shared memory parallelization[1]
- shell bending under tip load[1]
- shell elements[1]
- SHRES -I/O Options Entry[1]
- side constraints - free-shape optimization[1]
- SIMPACK[1]
- simple beam property[1]
- simple symmetry[1]
- simply supported beam verification problem[1]
- simply-supported solid square plate (Test No. FV52)[1]
- sine sweep fatigue analysis[1]
- sine sweep fatigue analysis - .rnf file[1]
- sine sweep fatigue analysis example[1]
- sine sweep fatigue analysis input[1]
- single host - solver script[1]
- single-scale model - MDS modeling[1]
- single-scale results[1]
- SINTENS - I/O Options and Subcase Information Entry[1]
- size (parameter) optimization[1]
- size (parameter) optimization (phase 2) - lattice structure optimization[1]
- size (parameter) optimization design variables[1]
- size (parameter) optimization example problems[1]
- size (parameter) optimization - features[1]
- size (parameter) optimization of a cantilever beam using equations example[1]
- size (parameter) optimization of a ten bar truss example[1]
- size optimization - shell cantilever example[1]
- size optimization tutorials[1]
- skew plate normal pressure (LE6)[1]
- SKIP - I/O Options and Subcase Information Entry[1]
- SLOAD- Bulk Data Entry[1]
- small displacement nonlinear analysis - convergence considerations[1]
- smoothing and remeshing - lattice structure optimization[1]
- smoothing - Laplacian[1]
- SMP (shared memory parallelization)[1]
- SMP implementation[1]
- snap-fit analysis (CONSLI versus FINITE)[1]
- S-N approach[1]
- S-N approach - multiaxial fatigue analysis[1]
- solid cylinder/taper/sphere - temperature (LE11)[1]
- solid element property[1]
- solid elements[1]
- solution sequence - data selectors[1]
- solution sequences - aerospace[1]
- solve an optimization problem not defined by a finite element model[1]
- solver classification - OptiStruct[1]
- solver script on single host[1]
- solver script - Windows machines[1]
- solvers - OptiStruct[1]
- SOLVTYP - Bulk Data Entry[1]
- SOLVTYP - subcase information entry[1]
- source grid location - radiated sound output analysis[1]
- SPC1 - Bulk Data Entry[1]
- SPCADD - Bulk Data Entry[1]
- SPC - Bulk Data Entry[1]
- SPCD - Bulk Data Entry[1]
- SPCDLIB - bulk data[1]
- SPCFORCE - I/O Options and Subcase Information Entry[1]
- SPCOFF1 - Bulk Data Entry[1]
- SPCOFF - Bulk Data Entry[1]
- SPCP - Bulk Data Entry[1]
- SPCP - Subcase Information Entry[1]
- SPC - subcase information entry[1]
- speaker, acoustic performance analysis - hi-tech electronic applications[1]
- speaker, vibro-acoustic performance analysis[1]
- special contact applications[1]
- specialized results outputs[1]
- SPL - I/O Options and Subcase Information Entry[1]
- SPLINE1 - Bulk Data Entry[1]
- SPLINE2 - Bulk Data Entry[1]
- SPLINE4 - Bulk Data Entry[1]
- SPMD - OptiStruct[1]
- SPOINT - Bulk Data Entry[1]
- spot weld fatigue analysis[1]
- spot weld fatigue analysis and size optimization of a frame structure[1]
- spotweld fatigue analysis - implementation[1]
- spot weld fatigue - input/output[1]
- SPOWER - I/O Options and Subcase Information Entry[1]
- STACK - Bulk Data Entry[1]
- stacking sequence optimization[1]
- standard result outputs[1]
- static, eigenvalue, transient and multibody loadcases[1]
- static, transient and multibody loadcases[1]
- static aeroelastic analysis[1]
- static aeroelasticity trim variables[1]
- static analysis - .rnf file[1]
- static analysis - MBD[1]
- static compliance - subcase dependent[1]
- static condensation[1]
- static loads and boundary conditions[1]
- STATSUB - subcase information entry[1]
- steady-state heat transfer analysis - linear[1]
- steady-state thermal analysis with convection loading of a structure with insulator[1]
- stiffness penalization - lattice structure optimization[1]
- straight cantilever beam verification problem[1]
- strain-based initiation criteria - cohesive zone modeling[1]
- STRAIN - I/O Options and Subcase Information Entry[1]
- strain-life approach[1]
- strain-life approach - fatigue analysis[1]
- strain-life approach - mean stress correction[1]
- strain-life sine sweep fatigue analysis[1]
- strain results written in HyperMesh .res format[1]
- strain results written in HyperView .h3d format[1]
- strain results written in Nastran .op2 and .pch formats[1]
- strains - results of a Finite Element Analysis[1]
- STRENGTH2000 - general output[1]
- stress and strain responses based on the Neuber correction method[1]
- stress-based initiation criteria - damage model method[1]
- stress constraints - lattice structure optimization[1]
- stresses - results of a finite element analysis[1]
- stress gradient effect - fatigue analysis[1]
- STRESS - I/O Options and Subcase Information Entry[1]
- stress-life approach[1][2]
- stress-life sine sweep fatigue analysis[1]
- stress punch file[1]
- stress punch file - frequency response analysiS[1]
- stress punch file - general (default) or random output (random)[1]
- stress punch file - linear and nonlinear static analysis[1]
- stress punch file - linear transient response analysis[1]
- stress punch file - random response analysis[1]
- stress responses for topology and free-size optimization[1][2]
- stress results written in HyperMesh .res format[1]
- stress results written in HyperView .h3d format[1]
- stress results written in Nastran .op2 and .pch formats[1]
- structural analysis[1]
- structural fluid-structure interaction analysis[1]
- structural fluid-structure interaction analysis - input/output[1]
- structural FSI - monitor[1]
- structural optimization - features[1]
- subcase dependent - internal responses[1]
- subcase independent - internal responses[1]
- subcase information entries by function[1]
- Subcase Information Entry guidelines[1]
- subcase information section[1]
- subcase specific model change using 3-rings example[1]
- subcase specific modeling[1]
- SUBCASE - subcase information entry[1]
- SUBCOM - subcase information entry[1]
- SUBMODEL - subcase information entry[1]
- SUBSEQ - subcase information entry[1]
- SUBTITLE - I/O Options and Subcase Information Entry[1]
- summary - aerospace[1]
- summary information[1]
- superelement output - OptiStruct[1]
- SUPER - subcase information entry[1]
- SUPORT1 - Bulk Data Entry[1]
- SUPORT1 - subcase information entry[1]
- SUPORT-based fast contact[1]
- SUPORT - Bulk Data Entry[1]
- supported optimization type chart[1]
- supported solution sequences[1]
- supported solution sequences - cohesive zone modeling[1]
- supported solution sequences - poroelastic materials[1]
- supported solution sequences - rotor dynamics[1]
- supported weld types[1][2]
- surface damage - fatigue analysis[1]
- surface optimization of a control arm[1]
- surface reduction and surface smoothing[1]
- surface smoothing[1]
- surface spline method[1][2]
- surface-to-surface discretization[1]
- SURF - Bulk Data Entry[1]
- suspension bridge example[1]
- SVELOCITY - I/O Options and Subcase Information Entry[1]
- SWLDPRM, CHKRUN - Bulk Data Entry[1]
- SWLDPRM, CNRAGLI - Bulk Data Entry[1]
- SWLDPRM, CNRAGLO - Bulk Data Entry[1]
- SWLDPRM, GMCHK[1]
- SWLDPRM, GSMOVE - Bulk Data Entry[1]
- SWLDPRM, GSPROJ - Bulk Data Entry[1]
- SWLDPRM, GSTOL - Bulk Data Entry[1]
- SWLDPRM, NREDIA - Bulk Data Entry[1]
- SWLDPRM, PATEXT - Bulk Data Entry[1]
- SWLDPRM, PROJTOL - Bulk Data Entry[1]
- SWLDPRM, PRTSW - Bulk Data Entry[1]
- SWLDPRM, SHOWAUX - Bulk Data Entry[1]
- SWLDPRM - Bulk Data Entry[1]
- symbolic sybstitution[1]
- symmetry three planes[1]
- symmetry - two planes[1]
- SYSSETTING - I/O Options Entry[1]
- system identification - design optimization[1]
- T
- TABDMP1 - Bulk Data Entry[1]
- TABDMP2 - Bulk Data Entry[1]
- TABFAT - Bulk Data Entry[1]
- TABLED1 - Bulk Data Entry[1]
- TABLED2 - Bulk Data Entry[1]
- TABLED3 - Bulk Data Entry[1]
- TABLED4 - Bulk Data Entry[1]
- TABLEG - Bulk Data Entry[1]
- TABLEM1 - Bulk Data Entry[1]
- TABLEM2 - Bulk Data Entry[1]
- TABLEM3 - Bulk Data Entry[1]
- TABLEM4 - Bulk Data Entry[1]
- TABLEMD - Bulk Data Entry[1]
- TABLES1 - Bulk Data Entry[1]
- TABLEST - bulk data entry[1]
- TABLEXN - Bulk Data Entry[1]
- TABRND1 - Bulk Data Entry[1]
- TCURVE - I/O Options and Subcase Information Entry[1]
- TEMP - Bulk Data Entry[1]
- TEMPD - Bulk Data Entry[1]
- TEMPERATURE - subcase information entry[1]
- TEMPP1 - Bulk Data Entry[1]
- TEMPT - Bulk Data Entry[1]
- theory: direct matrix input for Finite Element Analysis (Superelements)[1]
- thermal analysis[1]
- thermal analysis - hi-tech electronic applications[1]
- thermal analysis results[1]
- thermal contact solver[1]
- thermal contact without static analysis[1]
- thermal fluid-structure interaction analysis[1]
- thermal fluid-structure interaction analysis - hi-tech electronic applications[1]
- thermal fluid-structure interaction analysis - input[1]
- thermal fluid-structure interaction analysis - output[1]
- thermal fluid-structure interaction monitoring[1]
- thermal fluid structure interaction - powertrain applications[1]
- THERMAL - I/O Options and Subcase Information Entry[1]
- thermal structural analysis input data[1]
- THICKNESS - I/O Options and Subcase Information Entry[1]
- thickness mapping[1]
- thickness mapping relocation[1]
- thick plate pressure (LE10)[1]
- THIN - I/O Options and Subcase Information Entry[1]
- third party interface tutorials[1]
- TICA - Bulk Data Entry[1]
- TIC - Bulk Data Entry[1]
- TIE - Bulk Data Entry[1]
- time dependent convection coefficient[1]
- TITLE - I/O Options and Subcase Information Entry[1]
- TLOAD1 - Bulk Data Entry[1]
- TLOAD2 - Bulk Data Entry[1]
- TMPDIR - I/O Options and Subcase Information Entry[1]
- topography optimization[1]
- topography optimization design variables[1]
- topography optimization example problems[1]
- topography optimization - features[1]
- topography optimization - manufacturability[1]
- topography optimization of heat shields with frequency and/or ERP constraints[1]
- topography optimization tutorials[1]
- topography optimization using pattern grouping - examples[1]
- topology and free-size design characterists[1]
- topology and free-size result interpretation[1]
- topology optimization[1]
- topology optimization - design variables[1]
- topology optimization - draw direction constraints[1]
- topology optimization example problems[1]
- topology optimization - features[1]
- topology optimization - manufacturability[1]
- topology optimization - member size control[1]
- topology optimization of bedplate[1]
- topology optimization of control arm with local stress constraint[1]
- topology optimization of gearbox housings[1]
- topology optimization of V-Bracket using RADOPT[1]
- topology optimization on a cylinder block with bore distortion responses[1]
- topology optimization tutorials[1]
- topology optimization using minimum member size control - example problems[1]
- TOTALFORCE - I/O Options Entry[1]
- TOTALFORCE - Subcase Information Entry[1]
- transfer path analysis example[1]
- transfer path analysis - NVH[1]
- transfer path analysis post-processing[1]
- transfer path analysis - result files[1]
- transfer path analysis - setup and run[1]
- transient analysis - hi-tech electronic applications[1]
- transient analysis - MBD[1]
- transient and multibody loadcases[1]
- transient fatigue analysis[1]
- Transient Response Loads and Boundary Conditions[1]
- transient thermal subcase continuation[1]
- TRIM - Bulk Data Entry[1]
- TRIMF - I/O Options and Subcase Information Entry[1]
- trim load output[1]
- TRIM - subcase information entry[1]
- trim variable constraint[1]
- TSTEP - Bulk Data Entry[1]
- TSTEPE - Bulk Data Entry[1]
- TSTEPE - subcase information entry[1]
- TSTEPNL - Bulk Data Entry[1]
- TSTEPNL - subcase information entry[1]
- TSTEPNX -[1]
- TSTEP - subcase information entry[1]
- TSTRU - subcase information entry[1]
- TTERM - I/O Options and Subcase Information Entry[1]
- tutorials[1][2]
- tutorials implicit[1][2]
- tutorials OptiStruct[1]
- twisted cantilever beam verification problem - explicit results[1]
- twisted cantilever beam verification problem - implicit results[1]
- two-dimensional heat transfer with convection (test no. T4)[1]
- two-dimensional Michell-truss[1]
- two-layer stamped control arm example[1]
- two Planes - symmetry[1]
- U
- unbalance frequency - rotor example[1]
- UNBALNC - Bulk Data Entry[1]
- uniaxial fatigue analysis[1]
- UNITS - I/O Options and Subcase Information Entry[1]
- UPDATE - I/O Options and Subcase Information Entry[1]
- update optimization model[1]
- user-defined heat transfer properties[1]
- user-defined SPCD temperature values[1]
- user-defined structural material[1]
- user-defined thermal material[1]
- user-defined uniform heat flux values[1]
- user-defined volumetric heat addition[1]
- User Guide - OptiStruct[1]
- user responses - internal responses[1]
- USET1 - Bulk Data Entry[1]
- USET - Bulk Data Entry[1]
- V
- validation of finite element model - aerospace[1]
- variable pattern grouping[1]
- variables - symbolic substitution[1]
- vector defined pattern grouping[1]
- VELOCITY - I/O Options and Subcase Information Entry[1]
- velocity punch file[1]
- velocity punch file - frequency response analysis[1]
- velocity punch file - linear transient analysis[1]
- velocity punch file - linear transient analysis by Fourier transformation[1]
- velocity punch file - random response analysis[1]
- verification problems - OptiStruct[1]
- verify substituted data fields - symbolic substitution[1]
- vibro-acoustic performance analysis[1]
- virtual fluid mass[1]
- Virtual Lab[1]
- virtual versus physical memory - OptiStruct[1]
- VISCO - Bulk Data Entry[1]
- VISCO - subcase information entry[1]
- volume and thermal compliance responses[1]
- W
- warning message database[1]
- warning message - OptiStruct[1]
- washing machine simulation - hi-tech electronic applications[1]
- WEIGHTCHECK - subcase information entry[1]
- WEIGHT - subcase information entry[1]
- wrapped thick cylinder[1]
- write external functions - optimization responses[1]
- write external functions - user-defined heat transfer properties[1]
- X
- XDAMP - Bulk Data Entry[1]
- XHISADD - Bulk Data Entry[1]
- XHIST - Bulk Data Entry[1]
- XHIST - subcase information entry[1]
- XSHLPRM - Bulk Data Entry[1]
- XSOLPRM - Bulk Data Entry[1]
- XSTEP - Bulk Data Entry[1]
- XSTEP - subcase information entry[1]
- XTITLE - I/O Options and Subcase Information Entry[1]
- XYPEAK - I/O Options Entry[1]
- XYPLOT - I/O Options Entry[1]
- XYPUNCH - I/O Options Entry[1]
- Y
- YTITLE - I/O Options and Subcase Information Entry[1]
- Z
- Z-section cantilever (test no. LE5)[1]