Solution

class ansys.mechanical.stubs.v242.Ansys.ACT.Automation.Mechanical.Solution

Bases: object

Defines a Solution.

Overview

Methods

Activate	Activate the current object.
AddAccelerationFrequencyResponse	Creates a new AccelerationFrequencyResponse
AddAccelerationPhaseResponse	Creates a new AccelerationPhaseResponse
AddAccelerationProbe	Creates a new AccelerationProbe
AddAccelerationWaterfallDiagram	Creates a new AccelerationWaterfallDiagram
AddAccumulatedEquivalentPlasticStrain	Creates a new AccumulatedEquivalentPlasticStrain
AddAcousticAWeightedSPLFrequencyResponse	Creates a new AcousticAWeightedSPLFrequencyResponse
AddAcousticAWeightedSoundPressureLevel	Creates a new AcousticAWeightedSoundPressureLevel
AddAcousticAbsorptionCoefficient	Creates a new AcousticAbsorptionCoefficient
AddAcousticDiffuseSoundTransmissionLoss	Creates a new AcousticDiffuseSoundTransmissionLoss
AddAcousticDirectionalVelocityResult	Creates a new AcousticDirectionalVelocityResult
AddAcousticFarFieldAWeightedSPL	Creates a new AcousticFarFieldResult
AddAcousticFarFieldAWeightedSPLMic	Creates a new AcousticFarFieldResult
AddAcousticFarFieldDirectivity	Creates a new AcousticFarFieldResult
AddAcousticFarFieldMaximumPressure	Creates a new AcousticFarFieldResult
AddAcousticFarFieldMaximumPressureMic	Creates a new AcousticFarFieldResult
AddAcousticFarFieldMaximumScatteredPressure	Creates a new AcousticFarFieldResult
AddAcousticFarFieldPhase	Creates a new AcousticFarFieldResult
AddAcousticFarFieldPhaseMic	Creates a new AcousticFarFieldResult
AddAcousticFarFieldSPL	Creates a new AcousticFarFieldResult
AddAcousticFarFieldSPLMic	Creates a new AcousticFarFieldResult
AddAcousticFarFieldSPLMicWaterfallDiagram	Creates a new AcousticFarFieldSPLMicWaterfallDiagram
AddAcousticFarFieldSoundPowerLevel	Creates a new AcousticFarFieldResult
AddAcousticFarFieldSoundPowerLevelWaterfallDiagram	Creates a new AcousticFarFieldSoundPowerLevelWaterfallDiagram
AddAcousticFarFieldTargetStrength	Creates a new AcousticFarFieldResult
AddAcousticFrequencyBandAWeightedSPL	Creates a new AcousticFrequencyBandAWeightedSPL
AddAcousticFrequencyBandSPL	Creates a new AcousticFrequencyBandSPL
AddAcousticKineticEnergy	Creates a new AcousticKineticEnergy
AddAcousticKineticEnergyFrequencyResponse	Creates a new AcousticKineticEnergyFrequencyResponse
AddAcousticPotentialEnergy	Creates a new AcousticPotentialEnergy
AddAcousticPotentialEnergyFrequencyResponse	Creates a new AcousticPotentialEnergyFrequencyResponse
AddAcousticPressureFrequencyResponse	Creates a new AcousticPressureFrequencyResponse
AddAcousticPressureResult	Creates a new AcousticPressureResult
AddAcousticReturnLoss	Creates a new AcousticReturnLoss
AddAcousticSPLFrequencyResponse	Creates a new AcousticSPLFrequencyResponse
AddAcousticSoundPressureLevel	Creates a new AcousticSoundPressureLevel
AddAcousticTotalVelocityResult	Creates a new AcousticTotalVelocityResult
AddAcousticTransmissionLoss	Creates a new AcousticTransmissionLoss
AddAcousticVelocityFrequencyResponse	Creates a new AcousticVelocityFrequencyResponse
AddAngularAccelerationProbe	Creates a new AngularAccelerationProbe
AddAngularVelocityProbe	Creates a new AngularVelocityProbe
AddBeamProbe	Creates a new BeamProbe
AddBeamTool	Creates a new BeamTool
AddBearingProbe	Creates a new BearingProbe
AddBendingStressEquivalent	Creates a new BendingStressEquivalent
AddBendingStressIntensity	Creates a new BendingStressIntensity
AddBoltPretensionProbe	Creates a new BoltPretensionProbe
AddBoltTool	Creates a new BoltTool
AddCampbellDiagram	Creates a new CampbellDiagram
AddChargeReactionFrequencyResponse	Creates a new ChargeReactionFrequencyResponse
AddChargeReactionProbe	Creates a new ChargeReactionProbe
AddCommandSnippet	Creates a new CommandSnippet
AddComment	Creates a new child Comment.
AddCompositeCriterion	Creates a new CompositeCriterion
AddCompositeFailureTool	Creates a new CompositeFailureTool
AddCompositeSamplingPointTool	Creates a new CompositeSamplingPointTool
AddContactDistanceProbe	Creates a new ContactDistanceProbe
AddContactTool	Creates a new ContactTool
AddCurrentDensity	Creates a new CurrentDensity
AddCurrentDensityProbe	Creates a new CurrentDensityProbe
AddDamageStatus	Creates a new DamageStatus
AddDeformationFrequencyResponse	Creates a new DeformationFrequencyResponse
AddDeformationPhaseResponse	Creates a new DeformationPhaseResponse
AddDeformationProbe	Creates a new DeformationProbe
AddDirectionalAcceleration	Creates a new DirectionalAcceleration
AddDirectionalAccelerationPSD	Creates a new DirectionalAccelerationPSD
AddDirectionalAccelerationRS	Creates a new DirectionalAccelerationRS
AddDirectionalAxialForce	Creates a new DirectionalAxialForce
AddDirectionalBendingMoment	Creates a new DirectionalBendingMoment
AddDirectionalCurrentDensity	Creates a new DirectionalCurrentDensity
AddDirectionalDeformation	Creates a new DirectionalDeformation
AddDirectionalElectricFieldIntensity	Creates a new DirectionalElectricFieldIntensity
AddDirectionalElectricFluxDensity	Creates a new DirectionalElectricFluxDensity
AddDirectionalElectrostaticForce	Creates a new DirectionalElectrostaticForce
AddDirectionalHeatFlux	Creates a new DirectionalHeatFlux
AddDirectionalMagneticFieldIntensity	Creates a new DirectionalMagneticFieldIntensity
AddDirectionalMagneticFluxDensity	Creates a new DirectionalMagneticFluxDensity
AddDirectionalShearForce	Creates a new DirectionalShearForce
AddDirectionalTorsionalMoment	Creates a new DirectionalTorsionalMoment
AddDirectionalVelocity	Creates a new DirectionalVelocity
AddDirectionalVelocityPSD	Creates a new DirectionalVelocityPSD
AddDirectionalVelocityRS	Creates a new DirectionalVelocityRS
AddElasticStrainFrequencyResponse	Creates a new ElasticStrainFrequencyResponse
AddElasticStrainIntensity	Creates a new ElasticStrainIntensity
AddElasticStrainPhaseResponse	Creates a new ElasticStrainPhaseResponse
AddElectricFieldProbe	Creates a new ElectricFieldProbe
AddElectricPotential	Creates a new ElectricPotential
AddElectricVoltage	Creates a new ElectricVoltage
AddElectromechanicalCouplingCoefficient	Creates a new ElectromechanicalCouplingCoefficient
AddElementalEulerXYAngle	Creates a new ElementalEulerXYAngle
AddElementalEulerXZAngle	Creates a new ElementalEulerXZAngle
AddElementalEulerYZAngle	Creates a new ElementalEulerYZAngle
AddElementalStrainEnergy	Creates a new ElementalStrainEnergy
AddElementalTriads	Creates a new ElementalTriads
AddEmagReactionProbe	Creates a new EmagReactionProbe
AddEnergyDissipatedPerUnitVolume	Creates a new EnergyDissipatedPerUnitVolume
AddEnergyProbe	Creates a new EnergyProbe
AddEquivalentCreepStrain	Creates a new EquivalentCreepStrain
AddEquivalentCreepStrainRST	Creates a new EquivalentCreepStrainRST
AddEquivalentElasticStrain	Creates a new EquivalentElasticStrain
AddEquivalentElasticStrainRST	Creates a new EquivalentElasticStrainRST
AddEquivalentPlasticStrain	Creates a new EquivalentPlasticStrain
AddEquivalentPlasticStrainRST	Creates a new EquivalentPlasticStrainRST
AddEquivalentRadiatedPower	Creates a new EquivalentRadiatedPower
AddEquivalentRadiatedPowerLevel	Creates a new EquivalentRadiatedPowerLevel
AddEquivalentRadiatedPowerLevelWaterfallDiagram	Creates a new EquivalentRadiatedPowerLevelWaterfallDiagram
AddEquivalentRadiatedPowerWaterfallDiagram	Creates a new EquivalentRadiatedPowerWaterfallDiagram
AddEquivalentStress	Creates a new EquivalentStress
AddEquivalentStressPSD	Creates a new EquivalentStressPSD
AddEquivalentStressRS	Creates a new EquivalentStressRS
AddEquivalentTotalStrain	Creates a new EquivalentTotalStrain
AddExpansionSettings	Creates a new ExpansionSettings
AddFatigueTool	AddFatigueTool method.
AddFiberCompressiveDamageVariable	Creates a new FiberCompressiveDamageVariable
AddFiberCompressiveFailureCriterion	Creates a new FiberCompressiveFailureCriterion
AddFiberTensileDamageVariable	Creates a new FiberTensileDamageVariable
AddFiberTensileFailureCriterion	Creates a new FiberTensileFailureCriterion
AddFieldIntensityProbe	Creates a new FieldIntensityProbe
AddFigure	Creates a new child Figure.
AddFlexibleRotationProbe	Creates a new FlexibleRotationProbe
AddFluidFlowRate	Creates a new FluidFlowRate
AddFluidHeatConductionRate	Creates a new FluidHeatConductionRate
AddFluidHeatTransportRate	Creates a new FluidHeatTransportRate
AddFluxDensityProbe	Creates a new FluxDensityProbe
AddFluxLinkage	Creates a new FluxLinkage
AddForceReaction	Creates a new ForceReaction
AddForceReactionFrequencyResponse	Creates a new ForceReactionFrequencyResponse
AddForceReactionsForContactRegions	AddForceReactionsForContactRegions method.
AddForceSummationProbe	Creates a new ForceSummationProbe
AddFractureTool	Creates a new FractureTool
AddGeneralizedPlaneStrainProbe	Creates a new GeneralizedPlaneStrainProbe
AddGroupedScopedACPResults	AddGroupedScopedACPResults method.
AddGroupedScopedCustomResult	AddGroupedScopedCustomResult method.
AddHeatFluxProbe	Creates a new HeatFluxProbe
AddImage	Creates a new child Image.
AddImpedanceFrequencyResponse	Creates a new ImpedanceFrequencyResponse
AddImpedanceProbe	Creates a new ImpedanceProbe
AddInductance	Creates a new Inductance
AddJointProbe	Creates a new JointProbe
AddJouleHeat	Creates a new JouleHeat
AddJouleHeatProbe	Creates a new JouleHeatProbe
AddLatticeDensity	Creates a new LatticeDensity
AddLatticeElementalDensity	Creates a new LatticeElementalDensity
AddLineChart2D	Creates a new LineChart2D
AddLinePressureResult	Creates a new LinePressureResult
AddLinearizedEquivalentStress	Creates a new LinearizedEquivalentStress
AddLinearizedMaximumPrincipalStress	Creates a new LinearizedMaximumPrincipalStress
AddLinearizedMaximumShearStress	Creates a new LinearizedMaximumShearStress
AddLinearizedMiddlePrincipalStress	Creates a new LinearizedMiddlePrincipalStress
AddLinearizedMinimumPrincipalStress	Creates a new LinearizedMinimumPrincipalStress
AddLinearizedNormalStress	Creates a new LinearizedNormalStress
AddLinearizedShearStress	Creates a new LinearizedShearStress
AddLinearizedStressIntensity	Creates a new LinearizedStressIntensity
AddMCFWaterfallDiagram	Creates a new MCFWaterfallDiagram
AddMagneticCoenergy	Creates a new MagneticCoenergy
AddMagneticDirectionalForces	Creates a new MagneticDirectionalForces
AddMagneticError	Creates a new MagneticError
AddMagneticFluxProbe	Creates a new MagneticFluxProbe
AddMagneticPotential	Creates a new MagneticPotential
AddMagneticTotalForces	Creates a new MagneticTotalForces
AddMatrixCompressiveDamageVariable	Creates a new MatrixCompressiveDamageVariable
AddMatrixCompressiveFailureCriterion	Creates a new MatrixCompressiveFailureCriterion
AddMatrixTensileDamageVariable	Creates a new MatrixTensileDamageVariable
AddMatrixTensileFailureCriterion	Creates a new MatrixTensileFailureCriterion
AddMaximumFailureCriteria	Creates a new MaximumFailureCriteria
AddMaximumPrincipalElasticStrain	Creates a new MaximumPrincipalElasticStrain
AddMaximumPrincipalStress	Creates a new MaximumPrincipalStress
AddMaximumPrincipalThermalStrain	Creates a new MaximumPrincipalThermalStrain
AddMaximumShearElasticStrain	Creates a new MaximumShearElasticStrain
AddMaximumShearStress	Creates a new MaximumShearStress
AddMembraneStressEquivalent	Creates a new MembraneStressEquivalent
AddMembraneStressIntensity	Creates a new MembraneStressIntensity
AddMiddlePrincipalElasticStrain	Creates a new MiddlePrincipalElasticStrain
AddMiddlePrincipalStress	Creates a new MiddlePrincipalStress
AddMiddlePrincipalThermalStrain	Creates a new MiddlePrincipalThermalStrain
AddMinimumPrincipalElasticStrain	Creates a new MinimumPrincipalElasticStrain
AddMinimumPrincipalStress	Creates a new MinimumPrincipalStress
AddMomentReaction	Creates a new MomentReaction
AddMomentReactionsForContactRegions	AddMomentReactionsForContactRegions method.
AddMullinsDamageVariable	Creates a new MullinsDamageVariable
AddMullinsMaximumPreviousStrainEnergy	Creates a new MullinsMaximumPreviousStrainEnergy
AddNewtonRaphsonResidualCharge	Creates a new NewtonRaphsonResidualCharge
AddNewtonRaphsonResidualForce	Creates a new NewtonRaphsonResidualForce
AddNewtonRaphsonResidualHeat	Creates a new NewtonRaphsonResidualHeat
AddNewtonRaphsonResidualMoment	Creates a new NewtonRaphsonResidualMoment
AddNodalEulerXYAngle	Creates a new NodalEulerXYAngle
AddNodalEulerXZAngle	Creates a new NodalEulerXZAngle
AddNodalEulerYZAngle	Creates a new NodalEulerYZAngle
AddNodalTriads	Creates a new NodalTriads
AddNormalElasticStrain	Creates a new NormalElasticStrain
AddNormalGasketPressure	Creates a new NormalGasketPressure
AddNormalGasketTotalClosure	Creates a new NormalGasketTotalClosure
AddNormalStress	Creates a new NormalStress
AddPosition	Creates a new Position
AddPrimaryCriterion	Creates a new PrimaryCriterion
AddPythonCodeEventBased	Creates a new PythonCodeEventBased
AddPythonResult	Creates a new PythonResult
AddQualityFactor	Creates a new QualityFactor
AddRadiationProbe	Creates a new RadiationProbe
AddReactionProbe	Creates a new ReactionProbe
AddReactionsForContactRegions	AddReactionsForContactRegions method.
AddResponsePSD	Creates a new ResponsePSD
AddResponsePSDTool	Creates a new ResponsePSDTool
AddResultMesh	Creates a new ResultMesh
AddRotationProbe	Creates a new RotationProbe
AddShapeFinder	Creates a new ShapeFinder
AddShapeFinderElemental	Creates a new ShapeFinderElemental
AddShearDamageVariable	Creates a new ShearDamageVariable
AddShearElasticStrain	Creates a new ShearElasticStrain
AddShearGasketPressure	Creates a new ShearGasketPressure
AddShearGasketTotalClosure	Creates a new ShearGasketTotalClosure
AddShearMomentDiagramMSUM	Creates a new TotalShearMomentDiagram
AddShearMomentDiagramMY	Creates a new DirectionalShearMomentDiagram
AddShearMomentDiagramMZ	Creates a new DirectionalShearMomentDiagram
AddShearMomentDiagramUSUM	Creates a new TotalShearMomentDiagram
AddShearMomentDiagramUY	Creates a new DirectionalShearMomentDiagram
AddShearMomentDiagramUZ	Creates a new DirectionalShearMomentDiagram
AddShearMomentDiagramVSUM	Creates a new TotalShearMomentDiagram
AddShearMomentDiagramVY	Creates a new DirectionalShearMomentDiagram
AddShearMomentDiagramVZ	Creates a new DirectionalShearMomentDiagram
AddShearStress	Creates a new ShearStress
AddShellBendingStress	Creates a new ShellBendingStress
AddShellBottomPeakStress	Creates a new ShellBottomPeakStress
AddShellMembraneStress	Creates a new ShellMembraneStress
AddShellTopPeakStress	Creates a new ShellTopPeakStress
AddSpringProbe	Creates a new SpringProbe
AddStabilizationEnergy	Creates a new StabilizationEnergy
AddStrainProbe	Creates a new StrainProbe
AddStressFrequencyResponse	Creates a new StressFrequencyResponse
AddStressIntensity	Creates a new StressIntensity
AddStressPhaseResponse	Creates a new StressPhaseResponse
AddStressProbe	Creates a new StressProbe
AddStressTool	Creates a new StressTool
AddStructuralError	Creates a new StructuralError
AddStructuralStrainEnergy	Creates a new StructuralStrainEnergy
AddTemperature	Creates a new TemperatureResult
AddTemperatureProbe	Creates a new TemperatureProbe
AddThermalError	Creates a new ThermalError
AddThermalStrain	Creates a new DirectionalThermalStrain
AddThermalStrainEnergy	Creates a new ThermalStrainEnergy
AddTopologyDensity	Creates a new TopologyDensity
AddTopologyElementalDensity	Creates a new TopologyElementalDensity
AddTorqueProbe	Creates a new TorqueProbe
AddTotalAcceleration	Creates a new TotalAcceleration
AddTotalAxialForce	Creates a new TotalAxialForce
AddTotalBendingMoment	Creates a new TotalBendingMoment
AddTotalCurrentDensity	Creates a new TotalCurrentDensity
AddTotalDeformation	Creates a new TotalDeformation
AddTotalElectricFieldIntensity	Creates a new TotalElectricFieldIntensity
AddTotalElectricFluxDensity	Creates a new TotalElectricFluxDensity
AddTotalElectrostaticForce	Creates a new TotalElectrostaticForce
AddTotalHeatFlux	Creates a new TotalHeatFlux
AddTotalMagneticFieldIntensity	Creates a new TotalMagneticFieldIntensity
AddTotalMagneticFluxDensity	Creates a new TotalMagneticFluxDensity
AddTotalShearForce	Creates a new TotalShearForce
AddTotalTorsionalMoment	Creates a new TotalTorsionalMoment
AddTotalVelocity	Creates a new TotalVelocity
AddUserDefinedResult	Creates a new UserDefinedResult
AddVariableGraph	Creates a new VariableGraph
AddVectorAxialForce	Creates a new VectorAxialForce
AddVectorBendingMoment	Creates a new VectorBendingMoment
AddVectorDeformation	Creates a new VectorDeformation
AddVectorHeatFlux	Creates a new VectorHeatFlux
AddVectorPrincipalElasticStrain	Creates a new VectorPrincipalElasticStrain
AddVectorPrincipalStress	Creates a new VectorPrincipalStress
AddVectorShearForce	Creates a new VectorShearForce
AddVectorTorsionalMoment	Creates a new VectorTorsionalMoment
AddVelocityFrequencyResponse	Creates a new VelocityFrequencyResponse
AddVelocityPhaseResponse	Creates a new VelocityPhaseResponse
AddVelocityProbe	Creates a new VelocityProbe
AddVelocityWaterfallDiagram	Creates a new VelocityWaterfallDiagram
AddVoltageFrequencyResponse	Creates a new VoltageFrequencyResponse
AddVoltageProbe	Creates a new ElectricVoltageProbe
AddVolume	Creates a new Volume
AddVolumeProbe	Creates a new VolumeProbe
ClearGeneratedData	Run the ClearGeneratedData action.
ClearRemoteStorageData	ClearRemoteStorageData method.
CopyTo	Copies all visible properties from this object to another.
CreateParameter	Creates a new parameter for a Property.
CreateResultsAtAllSets	CreateResultsAtAllSets method.
DeleteRow	DeleteRow method.
DisconnectRemoteJob	DisconnectRemoteJob method.
Duplicate	Creates a copy of the current DataModelObject.
EvaluateAllContactTrackers	EvaluateAllContactTrackers method.
EvaluateAllResults	Run the EvaluateAllResults action.
EvaluateContactTracker	EvaluateContactTracker method.
ExecutePostCommands	Run Execute Post Commands for all post command objects.
ExportSubstructure	Export Substructure to cpa file.
ExtractSolutionStatistics	ExtractSolutionStatistics method.
FetchRemoteResults	FetchRemoteResults method.
FormatValue	FormatValue method.
GenerateAdaptedMesh	GenerateAdaptedMesh method.
GetChildren	Gets the list of children, filtered by type.
GetParameter	Gets the parameter corresponding to the given property.
GetResults	Gets the Results from the server.
GroupAllSimilarChildren	Run the GroupAllSimilarChildren action.
GroupSimilarObjects	Run the GroupSimilarObjects action.
IsResultFileChanged	Checks if the referenced result file has been changed.
IsResultFileSameAsLoaded	Checks if the given result file is same the loaded result file
OpenSolverFilesDirectory	Run the OpenSolverFilesDirectory action.
PropertyByAPIName	Get a property by its API name.
PropertyByName	Get a property by its unique name.
ReadAnsysResultFile	Run the Ansys ReadResults action.
ReadGivenAnsysResultFile	Run the given Ansys ReadResults action.///
ReadGivenAnsysResultFileByReference	Run the given Ansys ReadResults by reference action.///
ReconnectRemoteJob	ReconnectRemoteJob method.
RelinkResultFile	Relink the result file. This action allows repairing the result file referencing without altering the generated result data.
ReloadResultFile	Reload the result file. For results-only systems, this action reloads the result mesh data and resets all result scopings.
RemoveParameter	Removes the parameter from the parameter set corresponding to the given property.
Solve	Run the Solve action.
ValueForResultTracking	ValueForResultTracking method.
ValueForSolutionTracking	ValueForSolutionTracking method.

Properties

AllThreadsCPUTime	AllThreadsCPUTime property.
CalculateBeamSectionResults	Gets or sets the CalculateBeamSectionResults.
CellId	Gets the CellId.
Children	Gets the list of children.
Comments	Gets the list of associated comments.
CyclicSectorDisplayRangeBegin	Gets or sets the CyclicSectorDisplayRangeBegin.
DataModelObjectCategory	Gets the current DataModelObject's category.
DateOfRun	DateOfRun property.
EigenSolverType	EigenSolverType property.
ElapsedRunTime	Gets or sets the ElapsedRunTime.
ElapsedTime	ElapsedTime property.
ElementLoadBalRatio	ElementLoadBalRatio property.
ElementSelection	Gets or sets the ElementSelection.
Elements	Elements property.
EquationSolverType	EquationSolverType property.
ExportTopologyFile	Gets or sets the ExportTopologyFile.
Figures	Gets the list of associated figures.
GPUType	GPUType property.
GpuAcceleration	GpuAcceleration property.
IOBound	IOBound property.
IORead	IORead property.
IOWrite	IOWrite property.
Images	Gets the list of associated images.
InternalObject	Gets the internal object. For advanced usage only.
IsAutoHybridParallel	Returns if Hybrid Parallel was turned on by APDL or not (i.e. Automatic Hybrid Parallel)
IsDataExtractionComplete	IsDataExtractionComplete property.
IsDistributedSolution	IsDistributedSolution property.
IsEigenSolver	IsEigenSolver property.
IsGPUAccelerationRequested	IsGPUAccelerationRequested property.
IsHybridParallelSolution	IsHybridParallelSolution property.
IsUnsymmetricMatrixSolve	IsUnsymmetricMatrixSolve property.
License	License property.
LicenseCoresAvailable	LicenseCoresAvailable property.
MPIType	MPIType property.
MSUPHarmonicAnalysis	MSUPHarmonicAnalysis property.
MainThreadCPUTime	MainThreadCPUTime property.
MaximumRefinementLoops	Gets or sets the MaximumRefinementLoops.
MemoryAvailable	MemoryAvailable property.
MemoryUsed	Gets or sets the MemoryUsed.
MeshSource	Gets or sets the MeshSource.
Nodes	Nodes property.
NumCoresAvailable	NumCoresAvailable property.
NumGPURequested	NumGPURequested property.
NumMachinesRequested	NumMachinesRequested property.
NumProcRequested	NumProcRequested property.
NumVirtualCoresAvailable	NumVirtualCoresAvailable property.
NumberOfDOF	Get the Number of DOF.
NumberOfProcessesRequested	NumberOfProcessesRequested property.
NumberofSectors	Gets or sets the NumberofSectors.
OperatingSystem	OperatingSystem property.
ProcessorModel	ProcessorModel property.
Properties	Gets the list of properties for this object.
RefinementDepth	Gets or sets the RefinementDepth.
ResultFileDirectory	Gets the ResultFileDirectory.
ResultFileName	Gets the ResultFileName.
ResultFilePath	Get the result file full path.
ResultFileSize	Gets the ResultFileSize.
ResultFileTimestamp	Gets the ResultFileTimestamp.
ResultFileUnitSystem	Gets the ResultFileUnitSystem.
ResultTrackingVectorLength	ResultTrackingVectorLength property.
SkipSolveCommand	Gets or sets the flag to avoid issuing the solve command in the MAPDL solver.
SolutionInformation	Gets the SolutionInformation.
SolutionTrackingVectorLength	SolutionTrackingVectorLength property.
SolutionUnitSystem	SolutionUnitSystem property.
SolverData	SolverData property.
SolverType	SolverType property.
SparseMode	Get the Sparse Mode value.
Status	Gets the Status.
ThreadsPerProcessRequested	ThreadsPerProcessRequested property.
TimeOfRun	TimeOfRun property.
TimeToCombineDistributedFiles	TimeToCombineDistributedFiles property.
TopologyResult	Gets or sets the TopologyResult.
TotalMemoryUsed	TotalMemoryUsed property.
VisibleProperties	Gets the list of properties that are visible for this object.
WorkingDir	Gets the WorkingDir.

Property detail

property Solution.AllThreadsCPUTime: float | None

AllThreadsCPUTime property.

property Solution.CalculateBeamSectionResults: bool | None

Gets or sets the CalculateBeamSectionResults.

property Solution.CellId: str | None

Gets the CellId.

property Solution.Children: List[Ansys.Mechanical.DataModel.Interfaces.IDataModelObject] | None

Gets the list of children.

property Solution.Comments: Iterable[Ansys.ACT.Automation.Mechanical.Comment] | None

Gets the list of associated comments.

property Solution.CyclicSectorDisplayRangeBegin: int | None

Gets or sets the CyclicSectorDisplayRangeBegin.

property Solution.DataModelObjectCategory: Ansys.Mechanical.DataModel.Enums.DataModelObjectCategory | None

Gets the current DataModelObject's category.

property Solution.DateOfRun: str | None

DateOfRun property.

property Solution.EigenSolverType: Ansys.Mechanical.DataModel.Enums.EigenSolverType | None

EigenSolverType property.

property Solution.ElapsedRunTime: float | None

Gets or sets the ElapsedRunTime.

property Solution.ElapsedTime: float | None

ElapsedTime property.

property Solution.ElementLoadBalRatio: float | None

ElementLoadBalRatio property.

property Solution.ElementSelection: Ansys.Mechanical.DataModel.Enums.ConvergenceControlType | None

Gets or sets the ElementSelection.

property Solution.Elements: int | None

Elements property.

property Solution.EquationSolverType: Ansys.Mechanical.DataModel.Enums.EquationSolverType | None

EquationSolverType property.

property Solution.ExportTopologyFile: Ansys.Mechanical.DataModel.Enums.ExportTopologyFileOption | None

Gets or sets the ExportTopologyFile.

property Solution.Figures: Iterable[Ansys.ACT.Automation.Mechanical.Figure] | None

Gets the list of associated figures.

property Solution.GPUType: Ansys.Common.Interop.DSObjectTypes.DSGPUType | None

GPUType property.

property Solution.GpuAcceleration: str | None

GpuAcceleration property.

property Solution.IOBound: bool | None

IOBound property.

property Solution.IORead: float | None

IORead property.

property Solution.IOWrite: float | None

IOWrite property.

property Solution.Images: Iterable[Ansys.ACT.Automation.Mechanical.Image] | None

Gets the list of associated images.

property Solution.InternalObject: Ansys.Common.Interop.DSObjectsAuto.IDSAnswerSetAuto | None

Gets the internal object. For advanced usage only.

property Solution.IsAutoHybridParallel: bool | None

Returns if Hybrid Parallel was turned on by APDL or not (i.e. Automatic Hybrid Parallel)

property Solution.IsDataExtractionComplete: bool | None

IsDataExtractionComplete property.

property Solution.IsDistributedSolution: bool | None

IsDistributedSolution property.

property Solution.IsEigenSolver: bool | None

IsEigenSolver property.

property Solution.IsGPUAccelerationRequested: bool | None

IsGPUAccelerationRequested property.

property Solution.IsHybridParallelSolution: bool | None

IsHybridParallelSolution property.

property Solution.IsUnsymmetricMatrixSolve: bool | None

IsUnsymmetricMatrixSolve property.

property Solution.License: str | None

License property.

property Solution.LicenseCoresAvailable: int | None

LicenseCoresAvailable property.

property Solution.MPIType: Ansys.Mechanical.DataModel.Enums.MPIType | None

MPIType property.

property Solution.MSUPHarmonicAnalysis: bool | None

MSUPHarmonicAnalysis property.

property Solution.MainThreadCPUTime: float | None

MainThreadCPUTime property.

property Solution.MaximumRefinementLoops: int | None

Gets or sets the MaximumRefinementLoops.

property Solution.MemoryAvailable: float | None

MemoryAvailable property.

property Solution.MemoryUsed: float | None

Gets or sets the MemoryUsed.

property Solution.MeshSource: Ansys.Mechanical.DataModel.Enums.MeshSourceType | None

Gets or sets the MeshSource.

property Solution.Nodes: int | None

Nodes property.

property Solution.NumCoresAvailable: int | None

NumCoresAvailable property.

property Solution.NumGPURequested: int | None

NumGPURequested property.

property Solution.NumMachinesRequested: int | None

NumMachinesRequested property.

property Solution.NumProcRequested: int | None

NumProcRequested property.

property Solution.NumVirtualCoresAvailable: int | None

NumVirtualCoresAvailable property.

property Solution.NumberOfDOF: int | None

Get the Number of DOF.

property Solution.NumberOfProcessesRequested: int | None

NumberOfProcessesRequested property.

property Solution.NumberofSectors: int | None

Gets or sets the NumberofSectors.

property Solution.OperatingSystem: str | None

OperatingSystem property.

property Solution.ProcessorModel: str | None

ProcessorModel property.

property Solution.Properties: tuple[Ansys.ACT.Automation.Mechanical.Property] | None

Gets the list of properties for this object.

property Solution.RefinementDepth: int | None

Gets or sets the RefinementDepth.

property Solution.ResultFileDirectory: str | None

Gets the ResultFileDirectory.

property Solution.ResultFileName: str | None

Gets the ResultFileName.

property Solution.ResultFilePath: str | None

Get the result file full path.

property Solution.ResultFileSize: float | None

Gets the ResultFileSize.

property Solution.ResultFileTimestamp: str | None

Gets the ResultFileTimestamp.

property Solution.ResultFileUnitSystem: Ansys.Mechanical.DataModel.Enums.WBUnitSystemType | None

Gets the ResultFileUnitSystem.

property Solution.ResultTrackingVectorLength: int | None

ResultTrackingVectorLength property.

property Solution.SkipSolveCommand: bool | None

Gets or sets the flag to avoid issuing the solve command in the MAPDL solver.

property Solution.SolutionInformation: Ansys.ACT.Automation.Mechanical.SolutionInformation | None

Gets the SolutionInformation.

property Solution.SolutionTrackingVectorLength: int | None

SolutionTrackingVectorLength property.

property Solution.SolutionUnitSystem: Ansys.ACT.Interfaces.Common.MechanicalUnitSystem | None

SolutionUnitSystem property.

property Solution.SolverData: Any | None

SolverData property.

property Solution.SolverType: Ansys.Mechanical.DataModel.Enums.SolverType | None

SolverType property.

property Solution.SparseMode: int | None

Get the Sparse Mode value.

property Solution.Status: Ansys.Mechanical.DataModel.Enums.SolutionStatusType | None

Gets the Status.

property Solution.ThreadsPerProcessRequested: int | None

ThreadsPerProcessRequested property.

property Solution.TimeOfRun: str | None

TimeOfRun property.

property Solution.TimeToCombineDistributedFiles: float | None

TimeToCombineDistributedFiles property.

property Solution.TopologyResult: Ansys.ACT.Automation.Mechanical.DataModelObject | None

Gets or sets the TopologyResult.

property Solution.TotalMemoryUsed: float | None

TotalMemoryUsed property.

property Solution.VisibleProperties: tuple[Ansys.ACT.Automation.Mechanical.Property] | None

Gets the list of properties that are visible for this object.

property Solution.WorkingDir: str | None

Gets the WorkingDir.

Method detail

Solution.Activate() → None

Activate the current object.

Solution.AddAccelerationFrequencyResponse() → Ansys.ACT.Automation.Mechanical.Results.FrequencyResponseResults.AccelerationFrequencyResponse

Creates a new AccelerationFrequencyResponse

Solution.AddAccelerationPhaseResponse() → Ansys.ACT.Automation.Mechanical.Results.PhaseResponseResults.AccelerationPhaseResponse

Creates a new AccelerationPhaseResponse

Solution.AddAccelerationProbe() → Ansys.ACT.Automation.Mechanical.Results.ProbeResults.AccelerationProbe

Creates a new AccelerationProbe

Solution.AddAccelerationWaterfallDiagram() → Ansys.ACT.Automation.Mechanical.Results.FrequencyResponseResults.AccelerationWaterfallDiagram

Creates a new AccelerationWaterfallDiagram

Solution.AddAccumulatedEquivalentPlasticStrain() → Ansys.ACT.Automation.Mechanical.Results.StrainResults.AccumulatedEquivalentPlasticStrain

Creates a new AccumulatedEquivalentPlasticStrain

Solution.AddAcousticAWeightedSPLFrequencyResponse() → Ansys.ACT.Automation.Mechanical.Results.FrequencyResponseResults.AcousticAWeightedSPLFrequencyResponse

Creates a new AcousticAWeightedSPLFrequencyResponse

Solution.AddAcousticAWeightedSoundPressureLevel() → Ansys.ACT.Automation.Mechanical.Results.AcousticResults.AcousticAWeightedSoundPressureLevel

Creates a new AcousticAWeightedSoundPressureLevel

Solution.AddAcousticAbsorptionCoefficient() → Ansys.ACT.Automation.Mechanical.Results.AcousticResults.AcousticAbsorptionCoefficient

Creates a new AcousticAbsorptionCoefficient

Solution.AddAcousticDiffuseSoundTransmissionLoss() → Ansys.ACT.Automation.Mechanical.Results.AcousticResults.AcousticDiffuseSoundTransmissionLoss

Creates a new AcousticDiffuseSoundTransmissionLoss

Solution.AddAcousticDirectionalVelocityResult() → Ansys.ACT.Automation.Mechanical.Results.AcousticResults.AcousticDirectionalVelocityResult

Creates a new AcousticDirectionalVelocityResult

Solution.AddAcousticFarFieldAWeightedSPL() → Ansys.ACT.Automation.Mechanical.Results.AcousticResults.AcousticFarFieldResult

Creates a new AcousticFarFieldResult

Solution.AddAcousticFarFieldAWeightedSPLMic() → Ansys.ACT.Automation.Mechanical.Results.AcousticResults.AcousticFarFieldResult

Creates a new AcousticFarFieldResult

Solution.AddAcousticFarFieldDirectivity() → Ansys.ACT.Automation.Mechanical.Results.AcousticResults.AcousticFarFieldResult

Creates a new AcousticFarFieldResult

Solution.AddAcousticFarFieldMaximumPressure() → Ansys.ACT.Automation.Mechanical.Results.AcousticResults.AcousticFarFieldResult

Creates a new AcousticFarFieldResult

Solution.AddAcousticFarFieldMaximumPressureMic() → Ansys.ACT.Automation.Mechanical.Results.AcousticResults.AcousticFarFieldResult

Creates a new AcousticFarFieldResult

Solution.AddAcousticFarFieldMaximumScatteredPressure() → Ansys.ACT.Automation.Mechanical.Results.AcousticResults.AcousticFarFieldResult

Creates a new AcousticFarFieldResult

Solution.AddAcousticFarFieldPhase() → Ansys.ACT.Automation.Mechanical.Results.AcousticResults.AcousticFarFieldResult

Creates a new AcousticFarFieldResult

Solution.AddAcousticFarFieldPhaseMic() → Ansys.ACT.Automation.Mechanical.Results.AcousticResults.AcousticFarFieldResult

Creates a new AcousticFarFieldResult

Solution.AddAcousticFarFieldSPL() → Ansys.ACT.Automation.Mechanical.Results.AcousticResults.AcousticFarFieldResult

Creates a new AcousticFarFieldResult

Solution.AddAcousticFarFieldSPLMic() → Ansys.ACT.Automation.Mechanical.Results.AcousticResults.AcousticFarFieldResult

Creates a new AcousticFarFieldResult

Solution.AddAcousticFarFieldSPLMicWaterfallDiagram() → Ansys.ACT.Automation.Mechanical.Results.AcousticResults.AcousticFarFieldSPLMicWaterfallDiagram

Creates a new AcousticFarFieldSPLMicWaterfallDiagram

Solution.AddAcousticFarFieldSoundPowerLevel() → Ansys.ACT.Automation.Mechanical.Results.AcousticResults.AcousticFarFieldResult

Creates a new AcousticFarFieldResult

Solution.AddAcousticFarFieldSoundPowerLevelWaterfallDiagram() → Ansys.ACT.Automation.Mechanical.Results.AcousticResults.AcousticFarFieldSoundPowerLevelWaterfallDiagram

Creates a new AcousticFarFieldSoundPowerLevelWaterfallDiagram

Solution.AddAcousticFarFieldTargetStrength() → Ansys.ACT.Automation.Mechanical.Results.AcousticResults.AcousticFarFieldResult

Creates a new AcousticFarFieldResult

Solution.AddAcousticFrequencyBandAWeightedSPL() → Ansys.ACT.Automation.Mechanical.Results.AcousticResults.AcousticFrequencyBandAWeightedSPL

Creates a new AcousticFrequencyBandAWeightedSPL

Solution.AddAcousticFrequencyBandSPL() → Ansys.ACT.Automation.Mechanical.Results.AcousticResults.AcousticFrequencyBandSPL

Creates a new AcousticFrequencyBandSPL

Solution.AddAcousticKineticEnergy() → Ansys.ACT.Automation.Mechanical.Results.AcousticResults.AcousticKineticEnergy

Creates a new AcousticKineticEnergy

Solution.AddAcousticKineticEnergyFrequencyResponse() → Ansys.ACT.Automation.Mechanical.Results.FrequencyResponseResults.AcousticKineticEnergyFrequencyResponse

Creates a new AcousticKineticEnergyFrequencyResponse

Solution.AddAcousticPotentialEnergy() → Ansys.ACT.Automation.Mechanical.Results.AcousticResults.AcousticPotentialEnergy

Creates a new AcousticPotentialEnergy

Solution.AddAcousticPotentialEnergyFrequencyResponse() → Ansys.ACT.Automation.Mechanical.Results.FrequencyResponseResults.AcousticPotentialEnergyFrequencyResponse

Creates a new AcousticPotentialEnergyFrequencyResponse

Solution.AddAcousticPressureFrequencyResponse() → Ansys.ACT.Automation.Mechanical.Results.FrequencyResponseResults.AcousticPressureFrequencyResponse

Creates a new AcousticPressureFrequencyResponse

Solution.AddAcousticPressureResult() → Ansys.ACT.Automation.Mechanical.Results.AcousticResults.AcousticPressureResult

Creates a new AcousticPressureResult

Solution.AddAcousticReturnLoss() → Ansys.ACT.Automation.Mechanical.Results.AcousticResults.AcousticReturnLoss

Creates a new AcousticReturnLoss

Solution.AddAcousticSPLFrequencyResponse() → Ansys.ACT.Automation.Mechanical.Results.FrequencyResponseResults.AcousticSPLFrequencyResponse

Creates a new AcousticSPLFrequencyResponse

Solution.AddAcousticSoundPressureLevel() → Ansys.ACT.Automation.Mechanical.Results.AcousticResults.AcousticSoundPressureLevel

Creates a new AcousticSoundPressureLevel

Solution.AddAcousticTotalVelocityResult() → Ansys.ACT.Automation.Mechanical.Results.AcousticResults.AcousticTotalVelocityResult

Creates a new AcousticTotalVelocityResult

Solution.AddAcousticTransmissionLoss() → Ansys.ACT.Automation.Mechanical.Results.AcousticResults.AcousticTransmissionLoss

Creates a new AcousticTransmissionLoss

Solution.AddAcousticVelocityFrequencyResponse() → Ansys.ACT.Automation.Mechanical.Results.FrequencyResponseResults.AcousticVelocityFrequencyResponse

Creates a new AcousticVelocityFrequencyResponse

Solution.AddAngularAccelerationProbe() → Ansys.ACT.Automation.Mechanical.Results.ProbeResults.AngularAccelerationProbe

Creates a new AngularAccelerationProbe

Solution.AddAngularVelocityProbe() → Ansys.ACT.Automation.Mechanical.Results.ProbeResults.AngularVelocityProbe

Creates a new AngularVelocityProbe

Solution.AddBeamProbe() → Ansys.ACT.Automation.Mechanical.Results.ProbeResults.BeamProbe

Creates a new BeamProbe

Solution.AddBeamTool() → Ansys.ACT.Automation.Mechanical.Results.BeamToolResults.BeamTool

Creates a new BeamTool

Solution.AddBearingProbe() → Ansys.ACT.Automation.Mechanical.Results.ProbeResults.BearingProbe

Creates a new BearingProbe

Solution.AddBendingStressEquivalent() → Ansys.ACT.Automation.Mechanical.Results.StressResults.BendingStressEquivalent

Creates a new BendingStressEquivalent

Solution.AddBendingStressIntensity() → Ansys.ACT.Automation.Mechanical.Results.StressResults.BendingStressIntensity

Creates a new BendingStressIntensity

Solution.AddBoltPretensionProbe() → Ansys.ACT.Automation.Mechanical.Results.ProbeResults.BoltPretensionProbe

Creates a new BoltPretensionProbe

Solution.AddBoltTool() → Ansys.ACT.Automation.Mechanical.Results.BoltToolResults.BoltTool

Creates a new BoltTool

Solution.AddCampbellDiagram() → Ansys.ACT.Automation.Mechanical.Results.ResultTrackers.CampbellDiagram

Creates a new CampbellDiagram

Solution.AddChargeReactionFrequencyResponse() → Ansys.ACT.Automation.Mechanical.Results.FrequencyResponseResults.ChargeReactionFrequencyResponse

Creates a new ChargeReactionFrequencyResponse

Solution.AddChargeReactionProbe() → Ansys.ACT.Automation.Mechanical.Results.ProbeResults.ChargeReactionProbe

Creates a new ChargeReactionProbe

Solution.AddCommandSnippet() → Ansys.ACT.Automation.Mechanical.CommandSnippet

Creates a new CommandSnippet

Solution.AddComment() → Ansys.ACT.Automation.Mechanical.Comment

Creates a new child Comment.

Solution.AddCompositeCriterion() → Ansys.ACT.Automation.Mechanical.CompositeCriterion

Creates a new CompositeCriterion

Solution.AddCompositeFailureTool() → Ansys.ACT.Automation.Mechanical.Results.CompositeFailureResults.CompositeFailureTool

Creates a new CompositeFailureTool

Solution.AddCompositeSamplingPointTool() → Ansys.ACT.Automation.Mechanical.Results.CompositeFailureResults.CompositeSamplingPointTool

Creates a new CompositeSamplingPointTool

Solution.AddContactDistanceProbe() → Ansys.ACT.Automation.Mechanical.Results.ProbeResults.ContactDistanceProbe

Creates a new ContactDistanceProbe

Solution.AddContactTool() → Ansys.ACT.Automation.Mechanical.PostContactTool

Creates a new ContactTool

Solution.AddCurrentDensity() → Ansys.ACT.Automation.Mechanical.Results.ElectromagneticResults.CurrentDensity

Creates a new CurrentDensity

Solution.AddCurrentDensityProbe() → Ansys.ACT.Automation.Mechanical.Results.ProbeResults.CurrentDensityProbe

Creates a new CurrentDensityProbe

Solution.AddDamageStatus() → Ansys.ACT.Automation.Mechanical.Results.DamageResults.DamageStatus

Creates a new DamageStatus

Solution.AddDeformationFrequencyResponse() → Ansys.ACT.Automation.Mechanical.Results.FrequencyResponseResults.DeformationFrequencyResponse

Creates a new DeformationFrequencyResponse

Solution.AddDeformationPhaseResponse() → Ansys.ACT.Automation.Mechanical.Results.PhaseResponseResults.DeformationPhaseResponse

Creates a new DeformationPhaseResponse

Solution.AddDeformationProbe() → Ansys.ACT.Automation.Mechanical.Results.ProbeResults.DeformationProbe

Creates a new DeformationProbe

Solution.AddDirectionalAcceleration() → Ansys.ACT.Automation.Mechanical.Results.DeformationResults.DirectionalAcceleration

Creates a new DirectionalAcceleration

Solution.AddDirectionalAccelerationPSD() → Ansys.ACT.Automation.Mechanical.Results.DeformationResults.DirectionalAccelerationPSD

Creates a new DirectionalAccelerationPSD

Solution.AddDirectionalAccelerationRS() → Ansys.ACT.Automation.Mechanical.Results.DeformationResults.DirectionalAccelerationRS

Creates a new DirectionalAccelerationRS

Solution.AddDirectionalAxialForce() → Ansys.ACT.Automation.Mechanical.Results.BeamResults.DirectionalAxialForce

Creates a new DirectionalAxialForce

Solution.AddDirectionalBendingMoment() → Ansys.ACT.Automation.Mechanical.Results.BeamResults.DirectionalBendingMoment

Creates a new DirectionalBendingMoment

Solution.AddDirectionalCurrentDensity() → Ansys.ACT.Automation.Mechanical.Results.ElectricResults.DirectionalCurrentDensity

Creates a new DirectionalCurrentDensity

Solution.AddDirectionalDeformation() → Ansys.ACT.Automation.Mechanical.Results.DeformationResults.DirectionalDeformation

Creates a new DirectionalDeformation

Solution.AddDirectionalElectricFieldIntensity() → Ansys.ACT.Automation.Mechanical.Results.ElectricResults.DirectionalElectricFieldIntensity

Creates a new DirectionalElectricFieldIntensity

Solution.AddDirectionalElectricFluxDensity() → Ansys.ACT.Automation.Mechanical.Results.ElectricResults.DirectionalElectricFluxDensity

Creates a new DirectionalElectricFluxDensity

Solution.AddDirectionalElectrostaticForce() → Ansys.ACT.Automation.Mechanical.Results.ElectricResults.DirectionalElectrostaticForce

Creates a new DirectionalElectrostaticForce

Solution.AddDirectionalHeatFlux() → Ansys.ACT.Automation.Mechanical.Results.ThermalResults.DirectionalHeatFlux

Creates a new DirectionalHeatFlux

Solution.AddDirectionalMagneticFieldIntensity() → Ansys.ACT.Automation.Mechanical.Results.ElectromagneticResults.DirectionalMagneticFieldIntensity

Creates a new DirectionalMagneticFieldIntensity

Solution.AddDirectionalMagneticFluxDensity() → Ansys.ACT.Automation.Mechanical.Results.ElectromagneticResults.DirectionalMagneticFluxDensity

Creates a new DirectionalMagneticFluxDensity

Solution.AddDirectionalShearForce() → Ansys.ACT.Automation.Mechanical.Results.BeamResults.DirectionalShearForce

Creates a new DirectionalShearForce

Solution.AddDirectionalTorsionalMoment() → Ansys.ACT.Automation.Mechanical.Results.BeamResults.DirectionalTorsionalMoment

Creates a new DirectionalTorsionalMoment

Solution.AddDirectionalVelocity() → Ansys.ACT.Automation.Mechanical.Results.DeformationResults.DirectionalVelocity

Creates a new DirectionalVelocity

Solution.AddDirectionalVelocityPSD() → Ansys.ACT.Automation.Mechanical.Results.DeformationResults.DirectionalVelocityPSD

Creates a new DirectionalVelocityPSD

Solution.AddDirectionalVelocityRS() → Ansys.ACT.Automation.Mechanical.Results.DeformationResults.DirectionalVelocityRS

Creates a new DirectionalVelocityRS

Solution.AddElasticStrainFrequencyResponse() → Ansys.ACT.Automation.Mechanical.Results.FrequencyResponseResults.ElasticStrainFrequencyResponse

Creates a new ElasticStrainFrequencyResponse

Solution.AddElasticStrainIntensity() → Ansys.ACT.Automation.Mechanical.Results.StrainResults.ElasticStrainIntensity

Creates a new ElasticStrainIntensity

Solution.AddElasticStrainPhaseResponse() → Ansys.ACT.Automation.Mechanical.Results.PhaseResponseResults.ElasticStrainPhaseResponse

Creates a new ElasticStrainPhaseResponse

Solution.AddElectricFieldProbe() → Ansys.ACT.Automation.Mechanical.Results.ProbeResults.ElectricFieldProbe

Creates a new ElectricFieldProbe

Solution.AddElectricPotential() → Ansys.ACT.Automation.Mechanical.Results.ElectromagneticResults.ElectricPotential

Creates a new ElectricPotential

Solution.AddElectricVoltage() → Ansys.ACT.Automation.Mechanical.Results.ElectricResults.ElectricVoltage

Creates a new ElectricVoltage

Solution.AddElectromechanicalCouplingCoefficient() → Ansys.ACT.Automation.Mechanical.Results.ProbeResults.ElectromechanicalCouplingCoefficient

Creates a new ElectromechanicalCouplingCoefficient

Solution.AddElementalEulerXYAngle() → Ansys.ACT.Automation.Mechanical.Results.CoordinateSystemsResults.ElementalEulerXYAngle

Creates a new ElementalEulerXYAngle

Solution.AddElementalEulerXZAngle() → Ansys.ACT.Automation.Mechanical.Results.CoordinateSystemsResults.ElementalEulerXZAngle

Creates a new ElementalEulerXZAngle

Solution.AddElementalEulerYZAngle() → Ansys.ACT.Automation.Mechanical.Results.CoordinateSystemsResults.ElementalEulerYZAngle

Creates a new ElementalEulerYZAngle

Solution.AddElementalStrainEnergy() → Ansys.ACT.Automation.Mechanical.Results.EnergyResults.ElementalStrainEnergy

Creates a new ElementalStrainEnergy

Solution.AddElementalTriads() → Ansys.ACT.Automation.Mechanical.Results.CoordinateSystemsResults.ElementalTriads

Creates a new ElementalTriads

Solution.AddEmagReactionProbe() → Ansys.ACT.Automation.Mechanical.Results.ProbeResults.EmagReactionProbe

Creates a new EmagReactionProbe

Solution.AddEnergyDissipatedPerUnitVolume() → Ansys.ACT.Automation.Mechanical.Results.DamageResults.EnergyDissipatedPerUnitVolume

Creates a new EnergyDissipatedPerUnitVolume

Solution.AddEnergyProbe() → Ansys.ACT.Automation.Mechanical.Results.ProbeResults.EnergyProbe

Creates a new EnergyProbe

Solution.AddEquivalentCreepStrain() → Ansys.ACT.Automation.Mechanical.Results.StrainResults.EquivalentCreepStrain

Creates a new EquivalentCreepStrain

Solution.AddEquivalentCreepStrainRST() → Ansys.ACT.Automation.Mechanical.Results.StrainResults.EquivalentCreepStrainRST

Creates a new EquivalentCreepStrainRST

Solution.AddEquivalentElasticStrain() → Ansys.ACT.Automation.Mechanical.Results.StrainResults.EquivalentElasticStrain

Creates a new EquivalentElasticStrain

Solution.AddEquivalentElasticStrainRST() → Ansys.ACT.Automation.Mechanical.Results.StrainResults.EquivalentElasticStrainRST

Creates a new EquivalentElasticStrainRST

Solution.AddEquivalentPlasticStrain() → Ansys.ACT.Automation.Mechanical.Results.StrainResults.EquivalentPlasticStrain

Creates a new EquivalentPlasticStrain

Solution.AddEquivalentPlasticStrainRST() → Ansys.ACT.Automation.Mechanical.Results.StrainResults.EquivalentPlasticStrainRST

Creates a new EquivalentPlasticStrainRST

Solution.AddEquivalentRadiatedPower() → Ansys.ACT.Automation.Mechanical.Results.FrequencyResponseResults.EquivalentRadiatedPower

Creates a new EquivalentRadiatedPower

Solution.AddEquivalentRadiatedPowerLevel() → Ansys.ACT.Automation.Mechanical.Results.FrequencyResponseResults.EquivalentRadiatedPowerLevel

Creates a new EquivalentRadiatedPowerLevel

Solution.AddEquivalentRadiatedPowerLevelWaterfallDiagram() → Ansys.ACT.Automation.Mechanical.Results.FrequencyResponseResults.EquivalentRadiatedPowerLevelWaterfallDiagram

Creates a new EquivalentRadiatedPowerLevelWaterfallDiagram

Solution.AddEquivalentRadiatedPowerWaterfallDiagram() → Ansys.ACT.Automation.Mechanical.Results.FrequencyResponseResults.EquivalentRadiatedPowerWaterfallDiagram

Creates a new EquivalentRadiatedPowerWaterfallDiagram

Solution.AddEquivalentStress() → Ansys.ACT.Automation.Mechanical.Results.StressResults.EquivalentStress

Creates a new EquivalentStress

Solution.AddEquivalentStressPSD() → Ansys.ACT.Automation.Mechanical.Results.StressResults.EquivalentStressPSD

Creates a new EquivalentStressPSD

Solution.AddEquivalentStressRS() → Ansys.ACT.Automation.Mechanical.Results.StressResults.EquivalentStressRS

Creates a new EquivalentStressRS

Solution.AddEquivalentTotalStrain() → Ansys.ACT.Automation.Mechanical.Results.StrainResults.EquivalentTotalStrain

Creates a new EquivalentTotalStrain

Solution.AddExpansionSettings() → Ansys.ACT.Automation.Mechanical.ExpansionSettings

Creates a new ExpansionSettings

Solution.AddFatigueTool() → Ansys.ACT.Automation.Mechanical.FatigueTool

AddFatigueTool method.

Solution.AddFiberCompressiveDamageVariable() → Ansys.ACT.Automation.Mechanical.Results.DamageResults.FiberCompressiveDamageVariable

Creates a new FiberCompressiveDamageVariable

Solution.AddFiberCompressiveFailureCriterion() → Ansys.ACT.Automation.Mechanical.Results.DamageResults.FiberCompressiveFailureCriterion

Creates a new FiberCompressiveFailureCriterion

Solution.AddFiberTensileDamageVariable() → Ansys.ACT.Automation.Mechanical.Results.DamageResults.FiberTensileDamageVariable

Creates a new FiberTensileDamageVariable

Solution.AddFiberTensileFailureCriterion() → Ansys.ACT.Automation.Mechanical.Results.DamageResults.FiberTensileFailureCriterion

Creates a new FiberTensileFailureCriterion

Solution.AddFieldIntensityProbe() → Ansys.ACT.Automation.Mechanical.Results.ProbeResults.FieldIntensityProbe

Creates a new FieldIntensityProbe

Solution.AddFigure() → Ansys.ACT.Automation.Mechanical.Figure

Creates a new child Figure.

Solution.AddFlexibleRotationProbe() → Ansys.ACT.Automation.Mechanical.Results.ProbeResults.FlexibleRotationProbe

Creates a new FlexibleRotationProbe

Solution.AddFluidFlowRate() → Ansys.ACT.Automation.Mechanical.Results.ThermalResults.FluidFlowRate

Creates a new FluidFlowRate

Solution.AddFluidHeatConductionRate() → Ansys.ACT.Automation.Mechanical.Results.ThermalResults.FluidHeatConductionRate

Creates a new FluidHeatConductionRate

Solution.AddFluidHeatTransportRate() → Ansys.ACT.Automation.Mechanical.Results.ThermalResults.FluidHeatTransportRate

Creates a new FluidHeatTransportRate

Solution.AddFluxDensityProbe() → Ansys.ACT.Automation.Mechanical.Results.ProbeResults.FluxDensityProbe

Creates a new FluxDensityProbe

Solution.AddFluxLinkage() → Ansys.ACT.Automation.Mechanical.Results.ElectromagneticResults.FluxLinkage

Creates a new FluxLinkage

Solution.AddForceReaction() → Ansys.ACT.Automation.Mechanical.Results.ProbeResults.ForceReaction

Creates a new ForceReaction

Solution.AddForceReactionFrequencyResponse() → Ansys.ACT.Automation.Mechanical.Results.FrequencyResponseResults.ForceReactionFrequencyResponse

Creates a new ForceReactionFrequencyResponse

Solution.AddForceReactionsForContactRegions(contactRegionObjIds: Iterable[int]) → None

AddForceReactionsForContactRegions method.

Solution.AddForceSummationProbe() → Ansys.ACT.Automation.Mechanical.Results.ProbeResults.ForceSummationProbe

Creates a new ForceSummationProbe

Solution.AddFractureTool() → Ansys.ACT.Automation.Mechanical.Results.FractureToolResults.FractureTool

Creates a new FractureTool

Solution.AddGeneralizedPlaneStrainProbe() → Ansys.ACT.Automation.Mechanical.Results.ProbeResults.GeneralizedPlaneStrainProbe

Creates a new GeneralizedPlaneStrainProbe

Solution.AddGroupedScopedACPResults(resultType: Ansys.Mechanical.DataModel.Enums.ResultType, selectedPlies: Iterable[Ansys.Mechanical.DataModel.Interfaces.IDataModelObject]) → None

AddGroupedScopedACPResults method.

Solution.AddGroupedScopedCustomResult(selectedPlies: Iterable[Ansys.Mechanical.DataModel.Interfaces.IDataModelObject]) → None

AddGroupedScopedCustomResult method.

Solution.AddHeatFluxProbe() → Ansys.ACT.Automation.Mechanical.Results.ProbeResults.HeatFluxProbe

Creates a new HeatFluxProbe

Solution.AddImage(filePath: str) → Ansys.ACT.Automation.Mechanical.Image

Creates a new child Image.
If a filePath is provided, the image will be loaded from that file,
if not, the image will be a screen capture of the Geometry window.

Solution.AddImpedanceFrequencyResponse() → Ansys.ACT.Automation.Mechanical.Results.FrequencyResponseResults.ImpedanceFrequencyResponse

Creates a new ImpedanceFrequencyResponse

Solution.AddImpedanceProbe() → Ansys.ACT.Automation.Mechanical.Results.ProbeResults.ImpedanceProbe

Creates a new ImpedanceProbe

Solution.AddInductance() → Ansys.ACT.Automation.Mechanical.Results.ElectromagneticResults.Inductance

Creates a new Inductance

Solution.AddJointProbe() → Ansys.ACT.Automation.Mechanical.Results.ProbeResults.JointProbe

Creates a new JointProbe

Solution.AddJouleHeat() → Ansys.ACT.Automation.Mechanical.Results.ElectricResults.JouleHeat

Creates a new JouleHeat

Solution.AddJouleHeatProbe() → Ansys.ACT.Automation.Mechanical.Results.ProbeResults.JouleHeatProbe

Creates a new JouleHeatProbe

Solution.AddLatticeDensity() → Ansys.ACT.Automation.Mechanical.Results.LatticeDensity

Creates a new LatticeDensity

Solution.AddLatticeElementalDensity() → Ansys.ACT.Automation.Mechanical.Results.LatticeElementalDensity

Creates a new LatticeElementalDensity

Solution.AddLineChart2D() → Ansys.ACT.Automation.Mechanical.LineChart2D

Creates a new LineChart2D

Solution.AddLinePressureResult() → Ansys.ACT.Automation.Mechanical.Results.LinePressureResult

Creates a new LinePressureResult

Solution.AddLinearizedEquivalentStress() → Ansys.ACT.Automation.Mechanical.Results.LinearizedStressResults.LinearizedEquivalentStress

Creates a new LinearizedEquivalentStress

Solution.AddLinearizedMaximumPrincipalStress() → Ansys.ACT.Automation.Mechanical.Results.LinearizedStressResults.LinearizedMaximumPrincipalStress

Creates a new LinearizedMaximumPrincipalStress

Solution.AddLinearizedMaximumShearStress() → Ansys.ACT.Automation.Mechanical.Results.LinearizedStressResults.LinearizedMaximumShearStress

Creates a new LinearizedMaximumShearStress

Solution.AddLinearizedMiddlePrincipalStress() → Ansys.ACT.Automation.Mechanical.Results.LinearizedStressResults.LinearizedMiddlePrincipalStress

Creates a new LinearizedMiddlePrincipalStress

Solution.AddLinearizedMinimumPrincipalStress() → Ansys.ACT.Automation.Mechanical.Results.LinearizedStressResults.LinearizedMinimumPrincipalStress

Creates a new LinearizedMinimumPrincipalStress

Solution.AddLinearizedNormalStress() → Ansys.ACT.Automation.Mechanical.Results.LinearizedStressResults.LinearizedNormalStress

Creates a new LinearizedNormalStress

Solution.AddLinearizedShearStress() → Ansys.ACT.Automation.Mechanical.Results.LinearizedStressResults.LinearizedShearStress

Creates a new LinearizedShearStress

Solution.AddLinearizedStressIntensity() → Ansys.ACT.Automation.Mechanical.Results.LinearizedStressResults.LinearizedStressIntensity

Creates a new LinearizedStressIntensity

Solution.AddMCFWaterfallDiagram() → Ansys.ACT.Automation.Mechanical.Results.FrequencyResponseResults.MCFWaterfallDiagram

Creates a new MCFWaterfallDiagram

Solution.AddMagneticCoenergy() → Ansys.ACT.Automation.Mechanical.Results.MagneticCoenergy

Creates a new MagneticCoenergy

Solution.AddMagneticDirectionalForces() → Ansys.ACT.Automation.Mechanical.Results.ElectromagneticResults.MagneticDirectionalForces

Creates a new MagneticDirectionalForces

Solution.AddMagneticError() → Ansys.ACT.Automation.Mechanical.Results.ElectromagneticResults.MagneticError

Creates a new MagneticError

Solution.AddMagneticFluxProbe() → Ansys.ACT.Automation.Mechanical.Results.ProbeResults.MagneticFluxProbe

Creates a new MagneticFluxProbe

Solution.AddMagneticPotential() → Ansys.ACT.Automation.Mechanical.Results.MagneticPotential

Creates a new MagneticPotential

Solution.AddMagneticTotalForces() → Ansys.ACT.Automation.Mechanical.Results.ElectromagneticResults.MagneticTotalForces

Creates a new MagneticTotalForces

Solution.AddMatrixCompressiveDamageVariable() → Ansys.ACT.Automation.Mechanical.Results.DamageResults.MatrixCompressiveDamageVariable

Creates a new MatrixCompressiveDamageVariable

Solution.AddMatrixCompressiveFailureCriterion() → Ansys.ACT.Automation.Mechanical.Results.DamageResults.MatrixCompressiveFailureCriterion

Creates a new MatrixCompressiveFailureCriterion

Solution.AddMatrixTensileDamageVariable() → Ansys.ACT.Automation.Mechanical.Results.DamageResults.MatrixTensileDamageVariable

Creates a new MatrixTensileDamageVariable

Solution.AddMatrixTensileFailureCriterion() → Ansys.ACT.Automation.Mechanical.Results.DamageResults.MatrixTensileFailureCriterion

Creates a new MatrixTensileFailureCriterion

Solution.AddMaximumFailureCriteria() → Ansys.ACT.Automation.Mechanical.Results.DamageResults.MaximumFailureCriteria

Creates a new MaximumFailureCriteria

Solution.AddMaximumPrincipalElasticStrain() → Ansys.ACT.Automation.Mechanical.Results.StrainResults.MaximumPrincipalElasticStrain

Creates a new MaximumPrincipalElasticStrain

Solution.AddMaximumPrincipalStress() → Ansys.ACT.Automation.Mechanical.Results.StressResults.MaximumPrincipalStress

Creates a new MaximumPrincipalStress

Solution.AddMaximumPrincipalThermalStrain() → Ansys.ACT.Automation.Mechanical.Results.StrainResults.MaximumPrincipalThermalStrain

Creates a new MaximumPrincipalThermalStrain

Solution.AddMaximumShearElasticStrain() → Ansys.ACT.Automation.Mechanical.Results.StrainResults.MaximumShearElasticStrain

Creates a new MaximumShearElasticStrain

Solution.AddMaximumShearStress() → Ansys.ACT.Automation.Mechanical.Results.StressResults.MaximumShearStress

Creates a new MaximumShearStress

Solution.AddMembraneStressEquivalent() → Ansys.ACT.Automation.Mechanical.Results.StressResults.MembraneStressEquivalent

Creates a new MembraneStressEquivalent

Solution.AddMembraneStressIntensity() → Ansys.ACT.Automation.Mechanical.Results.StressResults.MembraneStressIntensity

Creates a new MembraneStressIntensity

Solution.AddMiddlePrincipalElasticStrain() → Ansys.ACT.Automation.Mechanical.Results.StrainResults.MiddlePrincipalElasticStrain

Creates a new MiddlePrincipalElasticStrain

Solution.AddMiddlePrincipalStress() → Ansys.ACT.Automation.Mechanical.Results.StressResults.MiddlePrincipalStress

Creates a new MiddlePrincipalStress

Solution.AddMiddlePrincipalThermalStrain() → Ansys.ACT.Automation.Mechanical.Results.StrainResults.MiddlePrincipalThermalStrain

Creates a new MiddlePrincipalThermalStrain

Solution.AddMinimumPrincipalElasticStrain() → Ansys.ACT.Automation.Mechanical.Results.StrainResults.MinimumPrincipalElasticStrain

Creates a new MinimumPrincipalElasticStrain

Solution.AddMinimumPrincipalStress() → Ansys.ACT.Automation.Mechanical.Results.StressResults.MinimumPrincipalStress

Creates a new MinimumPrincipalStress

Solution.AddMomentReaction() → Ansys.ACT.Automation.Mechanical.Results.ProbeResults.MomentReaction

Creates a new MomentReaction

Solution.AddMomentReactionsForContactRegions(contactRegionObjIds: Iterable[int]) → None

AddMomentReactionsForContactRegions method.

Solution.AddMullinsDamageVariable() → Ansys.ACT.Automation.Mechanical.Results.DamageResults.MullinsDamageVariable

Creates a new MullinsDamageVariable

Solution.AddMullinsMaximumPreviousStrainEnergy() → Ansys.ACT.Automation.Mechanical.Results.DamageResults.MullinsMaximumPreviousStrainEnergy

Creates a new MullinsMaximumPreviousStrainEnergy

Solution.AddNewtonRaphsonResidualCharge() → Ansys.ACT.Automation.Mechanical.Results.NewtonRaphsonResidualCharge

Creates a new NewtonRaphsonResidualCharge

Solution.AddNewtonRaphsonResidualForce() → Ansys.ACT.Automation.Mechanical.Results.NewtonRaphsonResidualForce

Creates a new NewtonRaphsonResidualForce

Solution.AddNewtonRaphsonResidualHeat() → Ansys.ACT.Automation.Mechanical.Results.NewtonRaphsonResidualHeat

Creates a new NewtonRaphsonResidualHeat

Solution.AddNewtonRaphsonResidualMoment() → Ansys.ACT.Automation.Mechanical.Results.NewtonRaphsonResidualMoment

Creates a new NewtonRaphsonResidualMoment

Solution.AddNodalEulerXYAngle() → Ansys.ACT.Automation.Mechanical.Results.CoordinateSystemsResults.NodalEulerXYAngle

Creates a new NodalEulerXYAngle

Solution.AddNodalEulerXZAngle() → Ansys.ACT.Automation.Mechanical.Results.CoordinateSystemsResults.NodalEulerXZAngle

Creates a new NodalEulerXZAngle

Solution.AddNodalEulerYZAngle() → Ansys.ACT.Automation.Mechanical.Results.CoordinateSystemsResults.NodalEulerYZAngle

Creates a new NodalEulerYZAngle

Solution.AddNodalTriads() → Ansys.ACT.Automation.Mechanical.Results.CoordinateSystemsResults.NodalTriads

Creates a new NodalTriads

Solution.AddNormalElasticStrain() → Ansys.ACT.Automation.Mechanical.Results.StrainResults.NormalElasticStrain

Creates a new NormalElasticStrain

Solution.AddNormalGasketPressure() → Ansys.ACT.Automation.Mechanical.Results.GasketResults.NormalGasketPressure

Creates a new NormalGasketPressure

Solution.AddNormalGasketTotalClosure() → Ansys.ACT.Automation.Mechanical.Results.GasketResults.NormalGasketTotalClosure

Creates a new NormalGasketTotalClosure

Solution.AddNormalStress() → Ansys.ACT.Automation.Mechanical.Results.StressResults.NormalStress

Creates a new NormalStress

Solution.AddPosition() → Ansys.ACT.Automation.Mechanical.Results.ProbeResults.Position

Creates a new Position

Solution.AddPrimaryCriterion() → Ansys.ACT.Automation.Mechanical.PrimaryCriterion

Creates a new PrimaryCriterion

Solution.AddPythonCodeEventBased() → Ansys.ACT.Automation.Mechanical.PythonCodeEventBased

Creates a new PythonCodeEventBased

Solution.AddPythonResult() → Ansys.ACT.Automation.Mechanical.Results.ScriptableResults.PythonResult

Creates a new PythonResult

Solution.AddQualityFactor() → Ansys.ACT.Automation.Mechanical.Results.ProbeResults.QualityFactor

Creates a new QualityFactor

Solution.AddRadiationProbe() → Ansys.ACT.Automation.Mechanical.Results.ProbeResults.RadiationProbe

Creates a new RadiationProbe

Solution.AddReactionProbe() → Ansys.ACT.Automation.Mechanical.Results.ProbeResults.ReactionProbe

Creates a new ReactionProbe

Solution.AddReactionsForContactRegions(contactRegionObjIds: Iterable[int]) → None

AddReactionsForContactRegions method.

Solution.AddResponsePSD() → Ansys.ACT.Automation.Mechanical.Results.ProbeResults.ResponsePSD

Creates a new ResponsePSD

Solution.AddResponsePSDTool() → Ansys.ACT.Automation.Mechanical.ResponsePSDTool

Creates a new ResponsePSDTool

Solution.AddResultMesh() → Ansys.ACT.Automation.Mechanical.ResultMesh

Creates a new ResultMesh

Solution.AddRotationProbe() → Ansys.ACT.Automation.Mechanical.Results.ProbeResults.RotationProbe

Creates a new RotationProbe

Solution.AddShapeFinder() → Ansys.ACT.Automation.Mechanical.Results.ShapeFinder

Creates a new ShapeFinder

Solution.AddShapeFinderElemental() → Ansys.ACT.Automation.Mechanical.Results.ShapeFinderElemental

Creates a new ShapeFinderElemental

Solution.AddShearDamageVariable() → Ansys.ACT.Automation.Mechanical.Results.DamageResults.ShearDamageVariable

Creates a new ShearDamageVariable

Solution.AddShearElasticStrain() → Ansys.ACT.Automation.Mechanical.Results.StrainResults.ShearElasticStrain

Creates a new ShearElasticStrain

Solution.AddShearGasketPressure() → Ansys.ACT.Automation.Mechanical.Results.GasketResults.ShearGasketPressure

Creates a new ShearGasketPressure

Solution.AddShearGasketTotalClosure() → Ansys.ACT.Automation.Mechanical.Results.GasketResults.ShearGasketTotalClosure

Creates a new ShearGasketTotalClosure

Solution.AddShearMomentDiagramMSUM() → Ansys.ACT.Automation.Mechanical.Results.BeamResults.TotalShearMomentDiagram

Creates a new TotalShearMomentDiagram

Solution.AddShearMomentDiagramMY() → Ansys.ACT.Automation.Mechanical.Results.BeamResults.DirectionalShearMomentDiagram

Creates a new DirectionalShearMomentDiagram

Solution.AddShearMomentDiagramMZ() → Ansys.ACT.Automation.Mechanical.Results.BeamResults.DirectionalShearMomentDiagram

Creates a new DirectionalShearMomentDiagram

Solution.AddShearMomentDiagramUSUM() → Ansys.ACT.Automation.Mechanical.Results.BeamResults.TotalShearMomentDiagram

Creates a new TotalShearMomentDiagram

Solution.AddShearMomentDiagramUY() → Ansys.ACT.Automation.Mechanical.Results.BeamResults.DirectionalShearMomentDiagram

Creates a new DirectionalShearMomentDiagram

Solution.AddShearMomentDiagramUZ() → Ansys.ACT.Automation.Mechanical.Results.BeamResults.DirectionalShearMomentDiagram

Creates a new DirectionalShearMomentDiagram

Solution.AddShearMomentDiagramVSUM() → Ansys.ACT.Automation.Mechanical.Results.BeamResults.TotalShearMomentDiagram

Creates a new TotalShearMomentDiagram

Solution.AddShearMomentDiagramVY() → Ansys.ACT.Automation.Mechanical.Results.BeamResults.DirectionalShearMomentDiagram

Creates a new DirectionalShearMomentDiagram

Solution.AddShearMomentDiagramVZ() → Ansys.ACT.Automation.Mechanical.Results.BeamResults.DirectionalShearMomentDiagram

Creates a new DirectionalShearMomentDiagram

Solution.AddShearStress() → Ansys.ACT.Automation.Mechanical.Results.StressResults.ShearStress

Creates a new ShearStress

Solution.AddShellBendingStress() → Ansys.ACT.Automation.Mechanical.Results.StressResults.ShellBendingStress

Creates a new ShellBendingStress

Solution.AddShellBottomPeakStress() → Ansys.ACT.Automation.Mechanical.Results.StressResults.ShellBottomPeakStress

Creates a new ShellBottomPeakStress

Solution.AddShellMembraneStress() → Ansys.ACT.Automation.Mechanical.Results.StressResults.ShellMembraneStress

Creates a new ShellMembraneStress

Solution.AddShellTopPeakStress() → Ansys.ACT.Automation.Mechanical.Results.StressResults.ShellTopPeakStress

Creates a new ShellTopPeakStress

Solution.AddSpringProbe() → Ansys.ACT.Automation.Mechanical.Results.ProbeResults.SpringProbe

Creates a new SpringProbe

Solution.AddStabilizationEnergy() → Ansys.ACT.Automation.Mechanical.Results.EnergyResults.StabilizationEnergy

Creates a new StabilizationEnergy

Solution.AddStrainProbe() → Ansys.ACT.Automation.Mechanical.Results.ProbeResults.StrainProbe

Creates a new StrainProbe

Solution.AddStressFrequencyResponse() → Ansys.ACT.Automation.Mechanical.Results.FrequencyResponseResults.StressFrequencyResponse

Creates a new StressFrequencyResponse

Solution.AddStressIntensity() → Ansys.ACT.Automation.Mechanical.Results.StressResults.StressIntensity

Creates a new StressIntensity

Solution.AddStressPhaseResponse() → Ansys.ACT.Automation.Mechanical.Results.PhaseResponseResults.StressPhaseResponse

Creates a new StressPhaseResponse

Solution.AddStressProbe() → Ansys.ACT.Automation.Mechanical.Results.ProbeResults.StressProbe

Creates a new StressProbe

Solution.AddStressTool() → Ansys.ACT.Automation.Mechanical.Results.StressToolResults.StressTool

Creates a new StressTool

Solution.AddStructuralError() → Ansys.ACT.Automation.Mechanical.Results.StressResults.StructuralError

Creates a new StructuralError

Solution.AddStructuralStrainEnergy() → Ansys.ACT.Automation.Mechanical.Results.EnergyResults.StructuralStrainEnergy

Creates a new StructuralStrainEnergy

Solution.AddTemperature() → Ansys.ACT.Automation.Mechanical.Results.ThermalResults.TemperatureResult

Creates a new TemperatureResult

Solution.AddTemperatureProbe() → Ansys.ACT.Automation.Mechanical.Results.ProbeResults.TemperatureProbe

Creates a new TemperatureProbe

Solution.AddThermalError() → Ansys.ACT.Automation.Mechanical.Results.ThermalResults.ThermalError

Creates a new ThermalError

Solution.AddThermalStrain() → Ansys.ACT.Automation.Mechanical.Results.StrainResults.DirectionalThermalStrain

Creates a new DirectionalThermalStrain

Solution.AddThermalStrainEnergy() → Ansys.ACT.Automation.Mechanical.Results.EnergyResults.ThermalStrainEnergy

Creates a new ThermalStrainEnergy

Solution.AddTopologyDensity() → Ansys.ACT.Automation.Mechanical.Results.TopologyDensity

Creates a new TopologyDensity

Solution.AddTopologyElementalDensity() → Ansys.ACT.Automation.Mechanical.Results.TopologyElementalDensity

Creates a new TopologyElementalDensity

Solution.AddTorqueProbe() → Ansys.ACT.Automation.Mechanical.Results.ProbeResults.TorqueProbe

Creates a new TorqueProbe

Solution.AddTotalAcceleration() → Ansys.ACT.Automation.Mechanical.Results.DeformationResults.TotalAcceleration

Creates a new TotalAcceleration

Solution.AddTotalAxialForce() → Ansys.ACT.Automation.Mechanical.Results.BeamResults.TotalAxialForce

Creates a new TotalAxialForce

Solution.AddTotalBendingMoment() → Ansys.ACT.Automation.Mechanical.Results.BeamResults.TotalBendingMoment

Creates a new TotalBendingMoment

Solution.AddTotalCurrentDensity() → Ansys.ACT.Automation.Mechanical.Results.ElectricResults.TotalCurrentDensity

Creates a new TotalCurrentDensity

Solution.AddTotalDeformation() → Ansys.ACT.Automation.Mechanical.Results.DeformationResults.TotalDeformation

Creates a new TotalDeformation

Solution.AddTotalElectricFieldIntensity() → Ansys.ACT.Automation.Mechanical.Results.ElectricResults.TotalElectricFieldIntensity

Creates a new TotalElectricFieldIntensity

Solution.AddTotalElectricFluxDensity() → Ansys.ACT.Automation.Mechanical.Results.ElectricResults.TotalElectricFluxDensity

Creates a new TotalElectricFluxDensity

Solution.AddTotalElectrostaticForce() → Ansys.ACT.Automation.Mechanical.Results.ElectricResults.TotalElectrostaticForce

Creates a new TotalElectrostaticForce

Solution.AddTotalHeatFlux() → Ansys.ACT.Automation.Mechanical.Results.ThermalResults.TotalHeatFlux

Creates a new TotalHeatFlux

Solution.AddTotalMagneticFieldIntensity() → Ansys.ACT.Automation.Mechanical.Results.ElectromagneticResults.TotalMagneticFieldIntensity

Creates a new TotalMagneticFieldIntensity

Solution.AddTotalMagneticFluxDensity() → Ansys.ACT.Automation.Mechanical.Results.ElectromagneticResults.TotalMagneticFluxDensity

Creates a new TotalMagneticFluxDensity

Solution.AddTotalShearForce() → Ansys.ACT.Automation.Mechanical.Results.BeamResults.TotalShearForce

Creates a new TotalShearForce

Solution.AddTotalTorsionalMoment() → Ansys.ACT.Automation.Mechanical.Results.BeamResults.TotalTorsionalMoment

Creates a new TotalTorsionalMoment

Solution.AddTotalVelocity() → Ansys.ACT.Automation.Mechanical.Results.DeformationResults.TotalVelocity

Creates a new TotalVelocity

Solution.AddUserDefinedResult() → Ansys.ACT.Automation.Mechanical.Results.UserDefinedResult

Creates a new UserDefinedResult

Solution.AddVariableGraph() → Ansys.ACT.Automation.Mechanical.Results.VariableGraph

Creates a new VariableGraph

Solution.AddVectorAxialForce() → Ansys.ACT.Automation.Mechanical.Results.BeamResults.VectorAxialForce

Creates a new VectorAxialForce

Solution.AddVectorBendingMoment() → Ansys.ACT.Automation.Mechanical.Results.BeamResults.VectorBendingMoment

Creates a new VectorBendingMoment

Solution.AddVectorDeformation() → Ansys.ACT.Automation.Mechanical.Results.DeformationResults.VectorDeformation

Creates a new VectorDeformation

Solution.AddVectorHeatFlux() → Ansys.ACT.Automation.Mechanical.Results.ThermalResults.VectorHeatFlux

Creates a new VectorHeatFlux

Solution.AddVectorPrincipalElasticStrain() → Ansys.ACT.Automation.Mechanical.Results.StrainResults.VectorPrincipalElasticStrain

Creates a new VectorPrincipalElasticStrain

Solution.AddVectorPrincipalStress() → Ansys.ACT.Automation.Mechanical.Results.StressResults.VectorPrincipalStress

Creates a new VectorPrincipalStress

Solution.AddVectorShearForce() → Ansys.ACT.Automation.Mechanical.Results.BeamResults.VectorShearForce

Creates a new VectorShearForce

Solution.AddVectorTorsionalMoment() → Ansys.ACT.Automation.Mechanical.Results.BeamResults.VectorTorsionalMoment

Creates a new VectorTorsionalMoment

Solution.AddVelocityFrequencyResponse() → Ansys.ACT.Automation.Mechanical.Results.FrequencyResponseResults.VelocityFrequencyResponse

Creates a new VelocityFrequencyResponse

Solution.AddVelocityPhaseResponse() → Ansys.ACT.Automation.Mechanical.Results.PhaseResponseResults.VelocityPhaseResponse

Creates a new VelocityPhaseResponse

Solution.AddVelocityProbe() → Ansys.ACT.Automation.Mechanical.Results.ProbeResults.VelocityProbe

Creates a new VelocityProbe

Solution.AddVelocityWaterfallDiagram() → Ansys.ACT.Automation.Mechanical.Results.FrequencyResponseResults.VelocityWaterfallDiagram

Creates a new VelocityWaterfallDiagram

Solution.AddVoltageFrequencyResponse() → Ansys.ACT.Automation.Mechanical.Results.FrequencyResponseResults.VoltageFrequencyResponse

Creates a new VoltageFrequencyResponse

Solution.AddVoltageProbe() → Ansys.ACT.Automation.Mechanical.Results.ProbeResults.ElectricVoltageProbe

Creates a new ElectricVoltageProbe

Solution.AddVolume() → Ansys.ACT.Automation.Mechanical.Results.Volume

Creates a new Volume

Solution.AddVolumeProbe() → Ansys.ACT.Automation.Mechanical.Results.ProbeResults.VolumeProbe

Creates a new VolumeProbe

Solution.ClearGeneratedData() → None

Run the ClearGeneratedData action.

Solution.ClearRemoteStorageData() → None

ClearRemoteStorageData method.

Solution.CopyTo(other: Ansys.ACT.Automation.Mechanical.DataModelObject) → None

Copies all visible properties from this object to another.

Solution.CreateParameter(propName: str) → Ansys.ACT.Interfaces.Mechanical.IParameter

Creates a new parameter for a Property.

Solution.CreateResultsAtAllSets(resId: int) → List[Ansys.Mechanical.DataModel.Interfaces.IDataModelObject]

CreateResultsAtAllSets method.

Solution.DeleteRow(index: int) → None

DeleteRow method.

Solution.DisconnectRemoteJob() → None

DisconnectRemoteJob method.

Solution.Duplicate() → Ansys.Mechanical.DataModel.Interfaces.IDataModelObject

Creates a copy of the current DataModelObject.

Solution.EvaluateAllContactTrackers() → None

EvaluateAllContactTrackers method.

Solution.EvaluateAllResults() → None

Run the EvaluateAllResults action.

Solution.EvaluateContactTracker() → None

EvaluateContactTracker method.

Solution.ExecutePostCommands() → None

Run Execute Post Commands for all post command objects.

Solution.ExportSubstructure(exportFileName: str, exportFormat: Ansys.Mechanical.DataModel.MechanicalEnums.Substructure.ExportFormat, exportSettings: Ansys.ACT.Automation.Mechanical.Substructure.ExportSettings) → None

Export Substructure to cpa file.

Solution.ExtractSolutionStatistics() → None

ExtractSolutionStatistics method.

Solution.FetchRemoteResults() → None

FetchRemoteResults method.

Solution.FormatValue(value: float, unitType: int) → str

FormatValue method.

Solution.GenerateAdaptedMesh() → None

GenerateAdaptedMesh method.

Solution.GetChildren(recurses: bool, children: List[ChildrenType]) → List[ChildrenType]

Gets the list of children, filtered by type.

Solution.GetParameter(propName: str) → Ansys.ACT.Interfaces.Mechanical.IParameter

Gets the parameter corresponding to the given property.

Solution.GetResults() → None

Gets the Results from the server.

Solution.GroupAllSimilarChildren() → None

Run the GroupAllSimilarChildren action.

Solution.GroupSimilarObjects() → Ansys.ACT.Automation.Mechanical.TreeGroupingFolder

Run the GroupSimilarObjects action.

Solution.IsResultFileChanged() → bool

Checks if the referenced result file has been changed.

Solution.IsResultFileSameAsLoaded(filepath: str) → bool

Checks if the given result file is same the loaded result file

Solution.OpenSolverFilesDirectory() → None

Run the OpenSolverFilesDirectory action.

Solution.PropertyByAPIName(name: str) → Ansys.ACT.Automation.Mechanical.Property

Get a property by its API name.
If multiple properties have the same API Name, only the first property with that name will be returned.

Solution.PropertyByName(name: str) → Ansys.ACT.Automation.Mechanical.Property

Get a property by its unique name.

Solution.ReadAnsysResultFile() → None

Run the Ansys ReadResults action.

Solution.ReadGivenAnsysResultFile(resultFilePath: str, unitSystemID: Ansys.Mechanical.DataModel.Enums.UnitSystemIDType) → None

Run the given Ansys ReadResults action.///

Solution.ReadGivenAnsysResultFileByReference(resultFilePath: str, unitSystemID: Ansys.Mechanical.DataModel.Enums.UnitSystemIDType) → None

Run the given Ansys ReadResults by reference action.///

Solution.ReconnectRemoteJob() → None

ReconnectRemoteJob method.

Solution.RelinkResultFile(filepath: str) → None

Relink the result file. This action allows repairing the result file referencing without altering the generated result data.

Solution.ReloadResultFile() → None

Reload the result file. For results-only systems, this action reloads the result mesh data and resets all result scopings.

Solution.RemoveParameter(propName: str) → None

Removes the parameter from the parameter set corresponding to the given property.

Solution.Solve(wait: bool, config: str) → None

Run the Solve action.

Solution.ValueForResultTracking(index: int, key: str) → str

ValueForResultTracking method.

Solution.ValueForSolutionTracking(index: int, key: str) → str

ValueForSolutionTracking method.