Ansys Capabilities Chart
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ANSYS 14.0 Capabilities Brochure
Fluid Dynamics Structural Mechanics Electromagnetics Systems & Multiphysics
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ANSYS® 14.0Capabilities Chart
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Structural AnalysisAnalysis TypesStatic • • • • • •Modal • • • • • •Buckling(linear) • • • • • •Buckling(nonlinear) • • • • • • •Transient • • • ∆ ∆ • • •Spectrum • • • • • Harmonic • • • ∆ ∆ Randomvibration • • • Substructuring • • • Geometric NonlinearityLargestrain • • • • • • •Largedeflection • • • • ∆ • • • Material Model HighlightsLinearmaterialmodels • • • • • • • • •Rate-dependentplasticity • • • • • •Rate-independentplasticity • • • ∆ • • •Hyperelasticity • • • ∆ • • •Viscoelasticity • • • • • •Creep • • •Reactivematerials • •Contact ModelingBonded/noseparationsliding • • • • • • • • •Pretension(bolts,etc.) • • • • • • Joints • • • • •Spotwelds • • • • • • • •Nonlinear Contact ModelingRough • • • • • ∆ • • •Frictionless • • • • • ∆ • • •Friction • • • • • • •Gaskets • • • Advanced AnalysisRotordynamics • • • Componentmodesynthesis • • • Cyclicsymmetryanalysis • • • • • •Rezoning • • • •Submodeling • • • • • •Elementbirthanddeath • • • ∆ ∆ ∆
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Explicit AnalysisModeling CapabilitiesInteractiveprep/postandsolution •Remappinginspace •Remappingsolutionmethods •Massscaling • • •Dezoning •Partactivationanddeactivation •Part addition/removal during asimulation •Erosionbasedonmultiplecriteria • • •Naturalfragmentation • •Eulersolver •2-Dsolver ∆ •Fluid–structureinteraction(FSI) •Implicit–explicitdeformations • • •Implicit–explicitmaterialstates • •
Thermal AnalysisAnalysis TypesSteadystate • • • • • • • • •Transient • • • • • • •
Thermal ModelingConduction • • • • • • • • • • •Convection • • • • • • • • •Radiation • • • • • ∆ ∆Phasechange • • • • • • • •
Fluid DynamicsModeling Capabilities VarietyofinletandoutletB.C. • • • • •Steady-stateflow • • • • •Transientflow • • • • •2-Dflow(dedicatedsolveroption) • •2-Dflow(usingthin3-Dsegment) • • • • •3-Dflow • • • • •Time-dependentboundaryconditions • • • • •Incompressibleflow • • • • •Compressibleflow • • • •Naturalconvection • • • •Fanmodel • • • •Periodicdomains • • • • •Porousmedia • • • • •Heattransfer • • • • •Conjugateheattransfer • • • • •Non-Newtonianviscosity • • • • •Viscoelasticity •Turbulence(isotropic) • • • •
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ANSYS 14.0Capabilities Chart
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Fluid Dynamics Modeling Capabilities (continued)Turbulence(anisotropic/RSM/LES) • • • •Turbulence(transitional/SAS/DES) • •Rotating equipment (MRF/frozen-rotor) • •Rotating equipment (sliding-mesh/stage) • • Dynamic/moving-deformingmesh • • • • • Immersed-solid/MST method formovingparts • • • •Flow-drivensolidmotion(6DOF) • • •Internal radiation (participatingmedia) • • • • •Internal radiation (transparentmedia) • •Externalradiation • • Solarradiationandload • •Speciesmodeling • • • • •Flowpathlines(massless) • • • • •Particletracking(withmass) • •Coupleddiscretephasemodeling • •Acoustics(sourceexport) • • • •Acoustics(noiseprediction) •Chemicalreaction • • •Combustion • •Cavitation • • • •Multiphase(Eulerian) • •Multiphase(freesurface) • • • • •Fluid–structureinteractionoption • • • • •Internaloptimizationforflow • •Specialtyextrusionmodels •Specialtyblowmoldingmodels •Specialtyfiberspinningmodels •Specialty fuel cell models +
Solver OptionsPressure-basedcoupledsolver • • • • •Density-basedcoupledsolver •Pressure-basedsegregatedsolver •ParallelsolvingonlocalPCoption • • • • • • • Parallelsolvingovernetworkoption • • • • • •Customizable, scripting and userfunctions • • • • • Adjointsolverforsensitivity • analysis
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ANSYS 14.0Capabilities Chart
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Electromagnetics – Low FrequencyElectrostatics • •ACconduction • •DCconduction • •DCinsulatorfield •Magnetostatics • •Adaptivefieldmesh •ACharmonicmagnetic • •ACharmonicelectric • Electrictransient • •Ionoptics •
Magnetic TransientRigidmotionvisualization •Translationalmotion • •Rotationalmotion • •Double-layerrotationalmotion •Cylindricalmotion •Automaticmatchingboundaries •Windingdefinition •Automatic coil connections acrossboundaries •Advanced circuit coupling withANSYSSimplorer® •Circuit coupling with adaptive time stepping •
Advanced Material CharacteristicsNonlinearanisotropicmaterials •Functionalmagnetizationdirection •Advanced permanent magnet demagnetization modeling •Nonlinear magnetization characteristics •Corelossmodeling • Automatic project creation using UDPs •Insulationsheettomodelcracks •
Electromagnetics –High FrequencyFrequencydomainanalysis •Timedomainanalysis •Eigenmodeanalysis •Integralequationanalysis •Hybridfiniteelementintegral • equation analysisWaveportexcitation •Lumpedportexcitation •Floquetexcitations •Planewaveexcitation •
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Hertziandipoleexcitation •Cylindricalwaveexcitation •Gaussianbeamexcitation •Linearantennaexcitation •Linkedfar-fieldexcitation •Linkednear-fieldexcitation •Voltagesourceexcitation •Currentsourceexcitation •Magneticbiasexcitation •Modalsolutions •Terminalsolutions • Perfectelectricconductor • boundary Perfectmagneticconductor • boundaryFiniteconductivityboundaries •Impedanceboundary •Layeredimpedanceboundary •RLCboundary •Radiationboundary •Symmetryboundary •Master/slaveboundary •Screeningimpedanceboundary •Perfectlymatchedlayerboundary •Frequency-dependentmaterials •Fieldcalculationinsideconductive • materialsDiscrete-frequencysweeptype •Fast-frequencysweeptype • Interpolatingsweepfrequency • sweep type Zero-,first-,second-andmixed-orderelementtypes •Truecurvilinearmeshelements •Fullyautomatedmeshing •Fullyautomatedadaptive •meshrefinementS,Y,Zmatrixresults •Propagationconstantresults •E,H,J,Pfieldresults •Fieldcalculator •Iterativematrixsolver •Directmatrixsolver • Distributedfrequencysweepsolver • capability Distributedmodelsolution • capability
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Electromagnetics – High Frequency (continued)
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Antennaparametercalculation •Infiniteantennaarraycalculation •Finiteantennaarraycalculation •Radarcrosssectioncalculation •Frequencyselectivesurface • calculation Metamaterialcalculation • Specificabsorptionrate • calculationEMI/EMCcalculation •Importedgeometryhealing •Fullyscriptable •LinktoANSYSMechanical •DynamiclinktoAnsoftDesigner® •LinktoANSYSSIwave™ •LinktoANSYSSimplorer •
Coupled Physics (Sometimes requires two or more products)Acoustics • • • ∆ ∆Acoustics–structural • • Electric–magnetic • • •Fluid–structural • • • • • • Fluid–thermal • • • •Electromagnetic–fluid • + + + •Electrostatic–structural •Magnetic–structural • •Electromagnetic–thermal • • •Piezoelectric • •Piezoresistive • •Thermal–electric • • •Thermal–structural • • • • • • •Thermal–electric–structural • • •Thermal–electric–fluids •Electromagnetic–thermal–structural • • •Electromagnetic–thermal–fluids •Reduced-ordermodeling(ROM) • • •
Pre-ProcessingModeling CapabilitiesIGES/STEPgeometryreader • • • • • • • • • • • • • • •Beammodeling • • • • • + • • • Compositelay-up • • • • • •
Meshing CapabilitiesDefeaturing • • • • • • • • • • • • • • •Surfacemeshing • • • • • • • • • • • • •Tetrahedralmeshing • • • • • • • • • • • • • • •
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Electromagnetics – High Frequency (continued)
Prisminflationlayers • • • • • • • • • • • •Swept-hexmeshing • • • • • • • • • • • • •Thin-sweepmeshing • • • • • • • • • • • • •Multizonehexmeshing • • • • • • • • • • • •Automatichexa-coremeshing • • • • • • • • • • • •Automatichexa-dominantmeshing • • • • • • • • • • • •CutcellCartesianmeshing •Curvilinearelements • •Adaptivemeshrefinement • • • • • • • • • • •
Boundary ConditionsSolid model loads and boundaryconditions • • • • • • • • • • • • • • •Tabular loads and boundary conditions • • • • • • • • • • • • • •Function loads and boundary conditions • • • • • • • • • • • • • •Applytemperatureloads • • • • • • • • • • • •
Post-ProcessingReportgenerator • • • • • • • ∆ ∆ • • • • • •Contourdisplays • • • • • • • • • • • • • • •Vectordisplays • • • • • • • • • • • • • •Isosurfacedisplays • • • • • • • • • • • • • • •Slicingplanes • • • • • • • • • • • • • • •Quantitativecalculations • • • • • • • • • • • • • •Particletracing • • • • • Animation • • • • • • • • • • • • • • •Output(images,Excel®data) • • • • • • • • • • • • • • •CFDturbomachinery • • •
GeneralANSYS Engineering Knowledge Manager™ (EKM) data management ready + + + + + + + + + + + + Parallel solvers (HPClicensesrequired) + + + + + • + + + + + + +Solverscriptinglanguage • • • • • • • • • • • •Parametermanager • • • • • • • ∆ • • • • • •∆=Limitedsetoffeaturecapabilities+=Additionalproductrequired
ANSYS 14.0Capabilities Chart
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Pre-ProcessingMeshing Capabilities (continued)
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