intheCATMaterial document • • Materials FeaturesSupported capabilities EST, andFMDascorequisites FMS, to enableextended • Option 2–GPSPrerequisite • capabilities analysisprerequisites orcorequisites to fullyenableAFC • Option 1–Abaqusfor CATIA V5Complete and corequisite options: Abaqus for CATIA V5isavailablewithtwodifferent prerequisite Prerequisite andCorequisite Options • frequency-extraction, andexplicitdynamicsimulations • Abaqus Workbenches (WindowsXPProfessional SP2,WindowsXPProfessional x64, • Operating Systems • • • • • • • withintheCATIA analysiscapabilities V5environment • Integration Features CATIA V5Integration Abaqus for CATIA V5R21 userswhoplanto focus theirCATIA on V5simulationefforts WindowsVista,7) Abaqus linearandnonlinearmaterial stored properties CATIA-defined linearmaterial properties Use Abaqusfor CATIA V5withGPSasaprerequisite, andGAS, Abaqus for CATIA V5Complete canbeanattractive optionfor Use Abaqusfor CATIA V5Complete, notrequire whichdoes any Thermal Analysisworkbenchfor heattransfer simulations Nonlinear Structural Analysisworkbench for static, Windows/x86-32 andWindows/x86-64operating systems forVisual Basicscriptingcapabilities automated workflows for manyCATIASupport V5advanced connections Complete for CATIA support V5groups for analysisassemblySupport Model optimizationusingthePEO workbench for Knowledgeware,Support publications,andresults sensors Complete geometricassociativity andthermal dynamic, Availability oflinearandnonlinearstatic, Abaqus for CATIA V5 Option 1 CATIA V5 Complete

GPS Abaqus for CATIA V5

Option 2 CATIA V5 FMS, FMD FMS, GAS, EST,GAS, but notrequired) (recommended Corequisite Prerequisite

• • • • • • • hardening) Johnson-Cook • • • • • connections andnodeinterface properties • ormesh-independent) (mesh-dependent • • • • appliedatanytimeintheanalysis • • • Connections • • bodymodes • • • exponentialdecay) • • • “general contact” approach • Contact • • • • • • • systems available • • film condition, and temperature • • • Loads Design workbench Design Gasket material properties 3-D orthotropicmaterial properties Orthotropic composite layupsfor shellmodeling Composite from imported properties theCATIA Composite Abaqus heatgeneration usersubroutine Abaqus material usersubroutine Hyperelasticity or Metal plasticity(isotropic, kinematic, Linear elasticity Thermal properties Temperature-dependent material properties Support for CATIASupport point-to-point analysis for CATIASupport pointinterface seam,andsurface weldconnections Spot, Rigid andsmoothcouplings ofspecifieddegrees offreedom Analytically definedrigidsurfaces Rigid bodyconstraints, includingpinandtienodesets Bolt pretensioning onbeamsor3Dboltsthatcanbe bolttightening connectionsPhysical andvirtual Fully fastened connections Gap thermalconductance Self-contact modeling Contact controls includingautomatic stabilizationofrigid Control overcontact propagation from step to step Shell contact accounting for shellthickness Friction models(penalty,user-defined, andstatic-kinetic Small- andlarge-sliding contact “Interaction Wizard” to automatically define contact pairs Contact modelingusingeitherthe “contact pair”or Temperature definitions Surface thermalfilm condition surface, andbodyheatfluxes Point, Rotational bodyforces Gravity forces (mass bodyforces) Pressure loads distributed, andforcePoint, densityloads cylindrical, and spherical localcoordinateCartesian, loadsfromImported GPSanalysis Data mappingavailablefor pressure, thermal heatflux, Forces andmomentscanfollow nodalrotation Load applicationusingtabularandsmooth-step amplitudes

3DS.COM/SIMULIA Abaqus for CATIA V5 R21 Data Sheet

• connections and nodes-to-nodes • Shell modeling with node offsets from Documentation connection properties the shell midplane • Online User’s Manual (in both HTML • Rigid and smooth connections • Variable shell thickness using data and PDF formats) • Spring connections (linear and nonlinear) mapping of 2-D properties • Tool tips • Dashpot connections (linear and nonlinear) • Dedicated gasket elements to accurately • Context-dependent help • Press-fit connections model thin, flat gaskets • References and links to Abaqus • Virtual parts (smooth and rigid) • Simulation continuation capabilities to Analysis User’s Manual • Spring virtual parts (smooth and rigid) enable a preloaded model to be used as • Shared nodes among separate parts the base state for subsequent simulations Abaqus Analysis Products (nodal equivalencing) through the Abaqus *Restart, read option • Support for assembly of analysis Corequisite Meshing documents • Abaqus/Standard or Abaqus/Foundation • Support for CATIA V5 line, surface (triangle for static and thermal simulations and quadrilateral), and solid (tetrahedral, Job Management • Abaqus/Explicit for explicit dynamics prism, and hexahedral) meshing • Extensive model consistency checking simulations • Support for CATIA V5 linear and parabolic • Multiple case solutions in an analysis • Abaqus versions supported: 6.9, 6.9EF, element types document and 6.10 • Abaqus shell and membrane elements • Input file writing in user-selected set of • Abaqus continuum shell elements units Product Support • Abaqus gasket elements • Single or multiple sequential job • Maintenance and support • Models containing mixed-dimension submission • Quality monitoring service element types • “Job type” control (syntax check, data • Installation • “Skinning” of solid bodies with membrane check, continue, full model, and from input • Training and users’ meetings or shell elements file) • Whole-part and part-region (local) shell • Restart file writing control For more information, visit and beam properties • Memory settings control .com/products/afc_v5 or contact • Convenient viewing of Abaqus analysis your local SIMULIA office to discuss your files in a text editor (.dat, .msg, .sta, .log, Analysis Steps requirements with a technical specialist. and .inp) • Nonlinear static • Monitoring of job status • Linear static perturbation • Job error and warning messages • Riks method static steps • “Kill” function for jobs in progress (for handling global instabilities) • Interactive job diagnostics to help users • Frequency extraction (including quickly understand and correct modeling preloading effects) problems • Explicit dynamics • Capability to run simulations on remote • Transient heat transfer hardware • Steady-state heat transfer Results Visualization Geometric Nonlinearities • Access to a wide range of Abaqus output • Large rotations variables (from Abaqus output database) • Large strains • Time history animations • Stress stiffening • CATIA V5 cutting-plane results viewing • Results extrema identification Advanced Modeling Techniques • Access to Abaqus results through sensors countries. other subsidiariesits or and/or US the in Systèmes Dassault of trademarks registered are 3DSWYM, , , GEOVIA, ENOVIA, DELMIA, SIMULIA, SOLIDWORKS, CATIA, • Submodeling to target regions of interest • Display groups for user-generated and for detailed stress analysis solver-generated model regions • Cyclic symmetry modeling to analyze • Control of results output frequency bodies whose sectors repeat about an axis • Specification of results output variables of revolution • X-Y data plotting through direct link to Microsoft Excel © Dassault Systèmes 2012, all rights reserved.rights all 2012, Systèmes Dassault © 3DS.COM/SIMULIA 3DS.COM/SIMULIA