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Abaqus for CATIA V5

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Abaqus for CATIA V5 Abaqus for CATIA V5 R21 CATIA V5 Integration • Temperature-dependent material properties • Thermal properties Integration Features • Linear elasticity • Availability of linear and nonlinear static, dynamic, and thermal • Metal plasticity (isotropic, kinematic, or analysis capabilities within the CATIA V5 environment Johnson-Cook hardening) • Complete geometric associativity • Hyperelasticity • Support for Knowledgeware, publications, and results sensors • Abaqus material user subroutine • Model optimization using the PEO workbench • Abaqus heat generation user subroutine • Support for analysis assembly • Composite properties imported from the CATIA Composite • Complete support for CATIA V5 groups Design workbench • Support for many CATIA V5 advanced connections • Orthotropic composite layups for shell modeling • Visual Basic scripting capabilities for automated workflows • 3-D orthotropic material properties • Gasket material properties Operating Systems • Windows/x86-32 and Windows/x86-64 operating systems Loads (Windows XP Professional SP2, Windows XP Professional x64, • Load application using tabular and smooth-step amplitudes Windows Vista, Windows 7) • Forces and moments can follow nodal rotation • Data mapping available for pressure, heat flux, thermal Abaqus Workbenches film condition, and temperature • Nonlinear Structural Analysis workbench for static, • Imported loads from GPS analysis frequency-extraction, and explicit dynamic simulations • Cartesian, cylindrical, and spherical local coordinate • Thermal Analysis workbench for heat transfer simulations systems available • Point, distributed, and force density loads Prerequisite and Corequisite Options • Pressure loads Abaqus for CATIA V5 is available with two different prerequisite • Gravity forces (mass body forces) and corequisite options: • Rotational body forces • Point, surface, and body heat fluxes • Surface thermal film condition Option 1 – Abaqus for CATIA V5 Complete • Temperature definitions • Use Abaqus for CATIA V5 Complete, which does not require any analysis prerequisites or corequisites to fully enable AFC capabilities Contact • Abaqus for CATIA V5 Complete can be an attractive option for • Contact modeling using either the “contact pair” or users who plan to focus their CATIA V5 simulation efforts on “general contact” approach Abaqus • “Interaction Wizard” to automatically define contact pairs • Small- and large-sliding contact Option 2 – GPS Prerequisite • Friction models (penalty, user-defined, and static-kinetic • Use Abaqus for CATIA V5 with GPS as a prerequisite, and GAS, exponential decay) EST, FMS, and FMD as corequisites to enable extended • Shell contact accounting for shell thickness capabilities • Control over contact propagation from step to step • Contact controls including automatic stabilization of rigid body modes Supported Features • Self-contact modeling Materials • Gap thermal conductance • CATIA-defined linear material properties • Abaqus linear and nonlinear material properties stored Connections in the CATMaterial document • Fully fastened connections • Physical and virtual bolt tightening connections • Bolt pretensioning on beams or 3D bolts that can be Option 1 Option 2 applied at any time in the analysis • Rigid body constraints, including pin and tie node sets Abaqus for CATIA V5 • Analytically defined rigid surfaces • Rigid and smooth couplings of specified degrees of freedom Abaqus for CATIA V5 Complete GAS, EST, • Spot, seam, and surface weld connections GPS Prerequisite FMS, FMD (mesh-dependent or mesh-independent) • Support for CATIA point interface Corequisite connections and node interface properties CATIA V5 CATIA V5 (recommended • Support for CATIA point-to-point analysis but not required) 3DS.COM/SIMULIA 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 simulia.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 or its subsidiaries and/or in the US Systèmes Dassault of trademarks registered are NETVIBES, 3DSWYM, 3DVIA EXALEAD, DELMIA, ENOVIA, GEOVIA, SOLIDWORKS, SIMULIA, 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. 2012, all Systèmes © Dassault 3DS.COM/SIMULIA 3DS.COM/SIMULIA.
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