.. vale off :class:`Solution` ================= .. py:class:: ansys.mechanical.stubs.v242.Ansys.ACT.Automation.Mechanical.Solution Bases: :py:obj:`object` Defines a Solution. .. !! processed by numpydoc !! .. py:currentmodule:: Solution Overview -------- .. tab-set:: .. tab-item:: Methods .. list-table:: :header-rows: 0 :widths: auto * - :py:attr:`~Activate` - Activate the current object. * - :py:attr:`~AddAccelerationFrequencyResponse` - Creates a new AccelerationFrequencyResponse * - :py:attr:`~AddAccelerationPhaseResponse` - Creates a new AccelerationPhaseResponse * - :py:attr:`~AddAccelerationProbe` - Creates a new AccelerationProbe * - :py:attr:`~AddAccelerationWaterfallDiagram` - Creates a new AccelerationWaterfallDiagram * - :py:attr:`~AddAccumulatedEquivalentPlasticStrain` - Creates a new AccumulatedEquivalentPlasticStrain * - :py:attr:`~AddAcousticAWeightedSPLFrequencyResponse` - Creates a new AcousticAWeightedSPLFrequencyResponse * - :py:attr:`~AddAcousticAWeightedSoundPressureLevel` - Creates a new AcousticAWeightedSoundPressureLevel * - :py:attr:`~AddAcousticAbsorptionCoefficient` - Creates a new AcousticAbsorptionCoefficient * - :py:attr:`~AddAcousticDiffuseSoundTransmissionLoss` - Creates a new AcousticDiffuseSoundTransmissionLoss * - :py:attr:`~AddAcousticDirectionalVelocityResult` - Creates a new AcousticDirectionalVelocityResult * - :py:attr:`~AddAcousticFarFieldAWeightedSPL` - Creates a new AcousticFarFieldResult * - :py:attr:`~AddAcousticFarFieldAWeightedSPLMic` - Creates a new AcousticFarFieldResult * - :py:attr:`~AddAcousticFarFieldDirectivity` - Creates a new AcousticFarFieldResult * - :py:attr:`~AddAcousticFarFieldMaximumPressure` - Creates a new AcousticFarFieldResult * - :py:attr:`~AddAcousticFarFieldMaximumPressureMic` - Creates a new AcousticFarFieldResult * - :py:attr:`~AddAcousticFarFieldMaximumScatteredPressure` - Creates a new AcousticFarFieldResult * - :py:attr:`~AddAcousticFarFieldPhase` - Creates a new AcousticFarFieldResult * - :py:attr:`~AddAcousticFarFieldPhaseMic` - Creates a new AcousticFarFieldResult * - :py:attr:`~AddAcousticFarFieldSPL` - Creates a new AcousticFarFieldResult * - :py:attr:`~AddAcousticFarFieldSPLMic` - Creates a new AcousticFarFieldResult * - :py:attr:`~AddAcousticFarFieldSPLMicWaterfallDiagram` - Creates a new AcousticFarFieldSPLMicWaterfallDiagram * - :py:attr:`~AddAcousticFarFieldSoundPowerLevel` - Creates a new AcousticFarFieldResult * - :py:attr:`~AddAcousticFarFieldSoundPowerLevelWaterfallDiagram` - Creates a new AcousticFarFieldSoundPowerLevelWaterfallDiagram * - :py:attr:`~AddAcousticFarFieldTargetStrength` - Creates a new AcousticFarFieldResult * - :py:attr:`~AddAcousticFrequencyBandAWeightedSPL` - Creates a new AcousticFrequencyBandAWeightedSPL * - :py:attr:`~AddAcousticFrequencyBandSPL` - Creates a new AcousticFrequencyBandSPL * - :py:attr:`~AddAcousticKineticEnergy` - Creates a new AcousticKineticEnergy * - :py:attr:`~AddAcousticKineticEnergyFrequencyResponse` - Creates a new AcousticKineticEnergyFrequencyResponse * - :py:attr:`~AddAcousticPotentialEnergy` - Creates a new AcousticPotentialEnergy * - :py:attr:`~AddAcousticPotentialEnergyFrequencyResponse` - Creates a new AcousticPotentialEnergyFrequencyResponse * - :py:attr:`~AddAcousticPressureFrequencyResponse` - Creates a new AcousticPressureFrequencyResponse * - :py:attr:`~AddAcousticPressureResult` - Creates a new AcousticPressureResult * - :py:attr:`~AddAcousticReturnLoss` - Creates a new AcousticReturnLoss * - :py:attr:`~AddAcousticSPLFrequencyResponse` - Creates a new AcousticSPLFrequencyResponse * - :py:attr:`~AddAcousticSoundPressureLevel` - Creates a new AcousticSoundPressureLevel * - :py:attr:`~AddAcousticTotalVelocityResult` - Creates a new AcousticTotalVelocityResult * - :py:attr:`~AddAcousticTransmissionLoss` - Creates a new AcousticTransmissionLoss * - :py:attr:`~AddAcousticVelocityFrequencyResponse` - Creates a new AcousticVelocityFrequencyResponse * - :py:attr:`~AddAngularAccelerationProbe` - Creates a new AngularAccelerationProbe * - :py:attr:`~AddAngularVelocityProbe` - Creates a new AngularVelocityProbe * - :py:attr:`~AddBeamProbe` - Creates a new BeamProbe * - :py:attr:`~AddBeamTool` - Creates a new BeamTool * - :py:attr:`~AddBearingProbe` - Creates a new BearingProbe * - :py:attr:`~AddBendingStressEquivalent` - Creates a new BendingStressEquivalent * - :py:attr:`~AddBendingStressIntensity` - Creates a new BendingStressIntensity * - :py:attr:`~AddBoltPretensionProbe` - Creates a new BoltPretensionProbe * - :py:attr:`~AddBoltTool` - Creates a new BoltTool * - :py:attr:`~AddCampbellDiagram` - Creates a new CampbellDiagram * - :py:attr:`~AddChargeReactionFrequencyResponse` - Creates a new ChargeReactionFrequencyResponse * - :py:attr:`~AddChargeReactionProbe` - Creates a new ChargeReactionProbe * - :py:attr:`~AddCommandSnippet` - Creates a new CommandSnippet * - :py:attr:`~AddComment` - Creates a new child Comment. * - :py:attr:`~AddCompositeCriterion` - Creates a new CompositeCriterion * - :py:attr:`~AddCompositeFailureTool` - Creates a new CompositeFailureTool * - :py:attr:`~AddCompositeSamplingPointTool` - Creates a new CompositeSamplingPointTool * - :py:attr:`~AddContactDistanceProbe` - Creates a new ContactDistanceProbe * - :py:attr:`~AddContactTool` - Creates a new ContactTool * - :py:attr:`~AddCurrentDensity` - Creates a new CurrentDensity * - :py:attr:`~AddCurrentDensityProbe` - Creates a new CurrentDensityProbe * - :py:attr:`~AddDamageStatus` - Creates a new DamageStatus * - :py:attr:`~AddDeformationFrequencyResponse` - Creates a new DeformationFrequencyResponse * - :py:attr:`~AddDeformationPhaseResponse` - Creates a new DeformationPhaseResponse * - :py:attr:`~AddDeformationProbe` - Creates a new DeformationProbe * - :py:attr:`~AddDirectionalAcceleration` - Creates a new DirectionalAcceleration * - :py:attr:`~AddDirectionalAccelerationPSD` - Creates a new DirectionalAccelerationPSD * - :py:attr:`~AddDirectionalAccelerationRS` - Creates a new DirectionalAccelerationRS * - :py:attr:`~AddDirectionalAxialForce` - Creates a new DirectionalAxialForce * - :py:attr:`~AddDirectionalBendingMoment` - Creates a new DirectionalBendingMoment * - :py:attr:`~AddDirectionalCurrentDensity` - Creates a new DirectionalCurrentDensity * - :py:attr:`~AddDirectionalDeformation` - Creates a new DirectionalDeformation * - :py:attr:`~AddDirectionalElectricFieldIntensity` - Creates a new DirectionalElectricFieldIntensity * - :py:attr:`~AddDirectionalElectricFluxDensity` - Creates a new DirectionalElectricFluxDensity * - :py:attr:`~AddDirectionalElectrostaticForce` - Creates a new DirectionalElectrostaticForce * - :py:attr:`~AddDirectionalHeatFlux` - Creates a new DirectionalHeatFlux * - :py:attr:`~AddDirectionalMagneticFieldIntensity` - Creates a new DirectionalMagneticFieldIntensity * - :py:attr:`~AddDirectionalMagneticFluxDensity` - Creates a new DirectionalMagneticFluxDensity * - :py:attr:`~AddDirectionalShearForce` - Creates a new DirectionalShearForce * - :py:attr:`~AddDirectionalTorsionalMoment` - Creates a new DirectionalTorsionalMoment * - :py:attr:`~AddDirectionalVelocity` - Creates a new DirectionalVelocity * - :py:attr:`~AddDirectionalVelocityPSD` - Creates a new DirectionalVelocityPSD * - :py:attr:`~AddDirectionalVelocityRS` - Creates a new DirectionalVelocityRS * - :py:attr:`~AddElasticStrainFrequencyResponse` - Creates a new ElasticStrainFrequencyResponse * - :py:attr:`~AddElasticStrainIntensity` - Creates a new ElasticStrainIntensity * - :py:attr:`~AddElasticStrainPhaseResponse` - Creates a new ElasticStrainPhaseResponse * - :py:attr:`~AddElectricFieldProbe` - Creates a new ElectricFieldProbe * - :py:attr:`~AddElectricPotential` - Creates a new ElectricPotential * - :py:attr:`~AddElectricVoltage` - Creates a new ElectricVoltage * - :py:attr:`~AddElectromechanicalCouplingCoefficient` - Creates a new ElectromechanicalCouplingCoefficient * - :py:attr:`~AddElementalEulerXYAngle` - Creates a new ElementalEulerXYAngle * - :py:attr:`~AddElementalEulerXZAngle` - Creates a new ElementalEulerXZAngle * - :py:attr:`~AddElementalEulerYZAngle` - Creates a new ElementalEulerYZAngle * - :py:attr:`~AddElementalStrainEnergy` - Creates a new ElementalStrainEnergy * - :py:attr:`~AddElementalTriads` - Creates a new ElementalTriads * - :py:attr:`~AddEmagReactionProbe` - Creates a new EmagReactionProbe * - :py:attr:`~AddEnergyDissipatedPerUnitVolume` - Creates a new EnergyDissipatedPerUnitVolume * - :py:attr:`~AddEnergyProbe` - Creates a new EnergyProbe * - :py:attr:`~AddEquivalentCreepStrain` - Creates a new EquivalentCreepStrain * - :py:attr:`~AddEquivalentCreepStrainRST` - Creates a new EquivalentCreepStrainRST * - :py:attr:`~AddEquivalentElasticStrain` - Creates a new EquivalentElasticStrain * - :py:attr:`~AddEquivalentElasticStrainRST` - Creates a new EquivalentElasticStrainRST * - :py:attr:`~AddEquivalentPlasticStrain` - Creates a new EquivalentPlasticStrain * - :py:attr:`~AddEquivalentPlasticStrainRST` - Creates a new EquivalentPlasticStrainRST * - :py:attr:`~AddEquivalentRadiatedPower` - Creates a new EquivalentRadiatedPower * - :py:attr:`~AddEquivalentRadiatedPowerLevel` - Creates a new EquivalentRadiatedPowerLevel * - :py:attr:`~AddEquivalentRadiatedPowerLevelWaterfallDiagram` - Creates a new EquivalentRadiatedPowerLevelWaterfallDiagram * - :py:attr:`~AddEquivalentRadiatedPowerWaterfallDiagram` - Creates a new EquivalentRadiatedPowerWaterfallDiagram * - :py:attr:`~AddEquivalentStress` - Creates a new EquivalentStress * - :py:attr:`~AddEquivalentStressPSD` - Creates a new EquivalentStressPSD * - :py:attr:`~AddEquivalentStressRS` - Creates a new EquivalentStressRS * - :py:attr:`~AddEquivalentTotalStrain` - Creates a new EquivalentTotalStrain * - :py:attr:`~AddExpansionSettings` - Creates a new ExpansionSettings * - :py:attr:`~AddFatigueTool` - AddFatigueTool method. * - :py:attr:`~AddFiberCompressiveDamageVariable` - Creates a new FiberCompressiveDamageVariable * - :py:attr:`~AddFiberCompressiveFailureCriterion` - Creates a new FiberCompressiveFailureCriterion * - :py:attr:`~AddFiberTensileDamageVariable` - Creates a new FiberTensileDamageVariable * - :py:attr:`~AddFiberTensileFailureCriterion` - Creates a new FiberTensileFailureCriterion * - :py:attr:`~AddFieldIntensityProbe` - Creates a new FieldIntensityProbe * - :py:attr:`~AddFigure` - Creates a new child Figure. * - :py:attr:`~AddFlexibleRotationProbe` - Creates a new FlexibleRotationProbe * - :py:attr:`~AddFluidFlowRate` - Creates a new FluidFlowRate * - :py:attr:`~AddFluidHeatConductionRate` - Creates a new FluidHeatConductionRate * - :py:attr:`~AddFluidHeatTransportRate` - Creates a new FluidHeatTransportRate * - :py:attr:`~AddFluxDensityProbe` - Creates a new FluxDensityProbe * - :py:attr:`~AddFluxLinkage` - Creates a new FluxLinkage * - :py:attr:`~AddForceReaction` - Creates a new ForceReaction * - :py:attr:`~AddForceReactionFrequencyResponse` - Creates a new ForceReactionFrequencyResponse * - :py:attr:`~AddForceReactionsForContactRegions` - AddForceReactionsForContactRegions method. * - :py:attr:`~AddForceSummationProbe` - Creates a new ForceSummationProbe * - :py:attr:`~AddFractureTool` - Creates a new FractureTool * - :py:attr:`~AddGeneralizedPlaneStrainProbe` - Creates a new GeneralizedPlaneStrainProbe * - :py:attr:`~AddGroupedScopedACPResults` - AddGroupedScopedACPResults method. * - :py:attr:`~AddGroupedScopedCustomResult` - AddGroupedScopedCustomResult method. * - :py:attr:`~AddHeatFluxProbe` - Creates a new HeatFluxProbe * - :py:attr:`~AddImage` - Creates a new child Image. * - :py:attr:`~AddImpedanceFrequencyResponse` - Creates a new ImpedanceFrequencyResponse * - :py:attr:`~AddImpedanceProbe` - Creates a new ImpedanceProbe * - :py:attr:`~AddInductance` - Creates a new Inductance * - :py:attr:`~AddJointProbe` - Creates a new JointProbe * - :py:attr:`~AddJouleHeat` - Creates a new JouleHeat * - :py:attr:`~AddJouleHeatProbe` - Creates a new JouleHeatProbe * - :py:attr:`~AddLatticeDensity` - Creates a new LatticeDensity * - :py:attr:`~AddLatticeElementalDensity` - Creates a new LatticeElementalDensity * - :py:attr:`~AddLineChart2D` - Creates a new LineChart2D * - :py:attr:`~AddLinePressureResult` - Creates a new LinePressureResult * - :py:attr:`~AddLinearizedEquivalentStress` - Creates a new LinearizedEquivalentStress * - :py:attr:`~AddLinearizedMaximumPrincipalStress` - Creates a new LinearizedMaximumPrincipalStress * - :py:attr:`~AddLinearizedMaximumShearStress` - Creates a new LinearizedMaximumShearStress * - :py:attr:`~AddLinearizedMiddlePrincipalStress` - Creates a new LinearizedMiddlePrincipalStress * - :py:attr:`~AddLinearizedMinimumPrincipalStress` - Creates a new LinearizedMinimumPrincipalStress * - :py:attr:`~AddLinearizedNormalStress` - Creates a new LinearizedNormalStress * - :py:attr:`~AddLinearizedShearStress` - Creates a new LinearizedShearStress * - :py:attr:`~AddLinearizedStressIntensity` - Creates a new LinearizedStressIntensity * - :py:attr:`~AddMCFWaterfallDiagram` - Creates a new MCFWaterfallDiagram * - :py:attr:`~AddMagneticCoenergy` - Creates a new MagneticCoenergy * - :py:attr:`~AddMagneticDirectionalForces` - Creates a new MagneticDirectionalForces * - :py:attr:`~AddMagneticError` - Creates a new MagneticError * - :py:attr:`~AddMagneticFluxProbe` - Creates a new MagneticFluxProbe * - :py:attr:`~AddMagneticPotential` - Creates a new MagneticPotential * - :py:attr:`~AddMagneticTotalForces` - Creates a new MagneticTotalForces * - :py:attr:`~AddMatrixCompressiveDamageVariable` - Creates a new MatrixCompressiveDamageVariable * - :py:attr:`~AddMatrixCompressiveFailureCriterion` - Creates a new MatrixCompressiveFailureCriterion * - :py:attr:`~AddMatrixTensileDamageVariable` - Creates a new MatrixTensileDamageVariable * - :py:attr:`~AddMatrixTensileFailureCriterion` - Creates a new MatrixTensileFailureCriterion * - :py:attr:`~AddMaximumFailureCriteria` - Creates a new MaximumFailureCriteria * - :py:attr:`~AddMaximumPrincipalElasticStrain` - Creates a new MaximumPrincipalElasticStrain * - :py:attr:`~AddMaximumPrincipalStress` - Creates a new MaximumPrincipalStress * - :py:attr:`~AddMaximumPrincipalThermalStrain` - Creates a new MaximumPrincipalThermalStrain * - :py:attr:`~AddMaximumShearElasticStrain` - Creates a new MaximumShearElasticStrain * - :py:attr:`~AddMaximumShearStress` - Creates a new MaximumShearStress * - :py:attr:`~AddMembraneStressEquivalent` - Creates a new MembraneStressEquivalent * - :py:attr:`~AddMembraneStressIntensity` - Creates a new MembraneStressIntensity * - :py:attr:`~AddMiddlePrincipalElasticStrain` - Creates a new MiddlePrincipalElasticStrain * - :py:attr:`~AddMiddlePrincipalStress` - Creates a new MiddlePrincipalStress * - :py:attr:`~AddMiddlePrincipalThermalStrain` - Creates a new MiddlePrincipalThermalStrain * - :py:attr:`~AddMinimumPrincipalElasticStrain` - Creates a new MinimumPrincipalElasticStrain * - :py:attr:`~AddMinimumPrincipalStress` - Creates a new MinimumPrincipalStress * - :py:attr:`~AddMomentReaction` - Creates a new MomentReaction * - :py:attr:`~AddMomentReactionsForContactRegions` - AddMomentReactionsForContactRegions method. * - :py:attr:`~AddMullinsDamageVariable` - Creates a new MullinsDamageVariable * - :py:attr:`~AddMullinsMaximumPreviousStrainEnergy` - Creates a new MullinsMaximumPreviousStrainEnergy * - :py:attr:`~AddNewtonRaphsonResidualCharge` - Creates a new NewtonRaphsonResidualCharge * - :py:attr:`~AddNewtonRaphsonResidualForce` - Creates a new NewtonRaphsonResidualForce * - :py:attr:`~AddNewtonRaphsonResidualHeat` - Creates a new NewtonRaphsonResidualHeat * - :py:attr:`~AddNewtonRaphsonResidualMoment` - Creates a new NewtonRaphsonResidualMoment * - :py:attr:`~AddNodalEulerXYAngle` - Creates a new NodalEulerXYAngle * - :py:attr:`~AddNodalEulerXZAngle` - Creates a new NodalEulerXZAngle * - :py:attr:`~AddNodalEulerYZAngle` - Creates a new NodalEulerYZAngle * - :py:attr:`~AddNodalTriads` - Creates a new NodalTriads * - :py:attr:`~AddNormalElasticStrain` - Creates a new NormalElasticStrain * - :py:attr:`~AddNormalGasketPressure` - Creates a new NormalGasketPressure * - :py:attr:`~AddNormalGasketTotalClosure` - Creates a new NormalGasketTotalClosure * - :py:attr:`~AddNormalStress` - Creates a new NormalStress * - :py:attr:`~AddPosition` - Creates a new Position * - :py:attr:`~AddPrimaryCriterion` - Creates a new PrimaryCriterion * - :py:attr:`~AddPythonCodeEventBased` - Creates a new PythonCodeEventBased * - :py:attr:`~AddPythonResult` - Creates a new PythonResult * - :py:attr:`~AddQualityFactor` - Creates a new QualityFactor * - :py:attr:`~AddRadiationProbe` - Creates a new RadiationProbe * - :py:attr:`~AddReactionProbe` - Creates a new ReactionProbe * - :py:attr:`~AddReactionsForContactRegions` - AddReactionsForContactRegions method. * - :py:attr:`~AddResponsePSD` - Creates a new ResponsePSD * - :py:attr:`~AddResponsePSDTool` - Creates a new ResponsePSDTool * - :py:attr:`~AddResultMesh` - Creates a new ResultMesh * - :py:attr:`~AddRotationProbe` - Creates a new RotationProbe * - :py:attr:`~AddShapeFinder` - Creates a new ShapeFinder * - :py:attr:`~AddShapeFinderElemental` - Creates a new ShapeFinderElemental * - :py:attr:`~AddShearDamageVariable` - Creates a new ShearDamageVariable * - :py:attr:`~AddShearElasticStrain` - Creates a new ShearElasticStrain * - :py:attr:`~AddShearGasketPressure` - Creates a new ShearGasketPressure * - :py:attr:`~AddShearGasketTotalClosure` - Creates a new ShearGasketTotalClosure * - :py:attr:`~AddShearMomentDiagramMSUM` - Creates a new TotalShearMomentDiagram * - :py:attr:`~AddShearMomentDiagramMY` - Creates a new DirectionalShearMomentDiagram * - :py:attr:`~AddShearMomentDiagramMZ` - Creates a new DirectionalShearMomentDiagram * - :py:attr:`~AddShearMomentDiagramUSUM` - Creates a new TotalShearMomentDiagram * - :py:attr:`~AddShearMomentDiagramUY` - Creates a new DirectionalShearMomentDiagram * - :py:attr:`~AddShearMomentDiagramUZ` - Creates a new DirectionalShearMomentDiagram * - :py:attr:`~AddShearMomentDiagramVSUM` - Creates a new TotalShearMomentDiagram * - :py:attr:`~AddShearMomentDiagramVY` - Creates a new DirectionalShearMomentDiagram * - :py:attr:`~AddShearMomentDiagramVZ` - Creates a new DirectionalShearMomentDiagram * - :py:attr:`~AddShearStress` - Creates a new ShearStress * - :py:attr:`~AddShellBendingStress` - Creates a new ShellBendingStress * - :py:attr:`~AddShellBottomPeakStress` - Creates a new ShellBottomPeakStress * - :py:attr:`~AddShellMembraneStress` - Creates a new ShellMembraneStress * - :py:attr:`~AddShellTopPeakStress` - Creates a new ShellTopPeakStress * - :py:attr:`~AddSpringProbe` - Creates a new SpringProbe * - :py:attr:`~AddStabilizationEnergy` - Creates a new StabilizationEnergy * - :py:attr:`~AddStrainProbe` - Creates a new StrainProbe * - :py:attr:`~AddStressFrequencyResponse` - Creates a new StressFrequencyResponse * - :py:attr:`~AddStressIntensity` - Creates a new StressIntensity * - :py:attr:`~AddStressPhaseResponse` - Creates a new StressPhaseResponse * - :py:attr:`~AddStressProbe` - Creates a new StressProbe * - :py:attr:`~AddStressTool` - Creates a new StressTool * - :py:attr:`~AddStructuralError` - Creates a new StructuralError * - :py:attr:`~AddStructuralStrainEnergy` - Creates a new StructuralStrainEnergy * - :py:attr:`~AddTemperature` - Creates a new TemperatureResult * - :py:attr:`~AddTemperatureProbe` - Creates a new TemperatureProbe * - :py:attr:`~AddThermalError` - Creates a new ThermalError * - :py:attr:`~AddThermalStrain` - Creates a new DirectionalThermalStrain * - :py:attr:`~AddThermalStrainEnergy` - Creates a new ThermalStrainEnergy * - :py:attr:`~AddTopologyDensity` - Creates a new TopologyDensity * - :py:attr:`~AddTopologyElementalDensity` - Creates a new TopologyElementalDensity * - :py:attr:`~AddTorqueProbe` - Creates a new TorqueProbe * - :py:attr:`~AddTotalAcceleration` - Creates a new TotalAcceleration * - :py:attr:`~AddTotalAxialForce` - Creates a new TotalAxialForce * - :py:attr:`~AddTotalBendingMoment` - Creates a new TotalBendingMoment * - :py:attr:`~AddTotalCurrentDensity` - Creates a new TotalCurrentDensity * - :py:attr:`~AddTotalDeformation` - Creates a new TotalDeformation * - :py:attr:`~AddTotalElectricFieldIntensity` - Creates a new TotalElectricFieldIntensity * - :py:attr:`~AddTotalElectricFluxDensity` - Creates a new TotalElectricFluxDensity * - :py:attr:`~AddTotalElectrostaticForce` - Creates a new TotalElectrostaticForce * - :py:attr:`~AddTotalHeatFlux` - Creates a new TotalHeatFlux * - :py:attr:`~AddTotalMagneticFieldIntensity` - Creates a new TotalMagneticFieldIntensity * - :py:attr:`~AddTotalMagneticFluxDensity` - Creates a new TotalMagneticFluxDensity * - :py:attr:`~AddTotalShearForce` - Creates a new TotalShearForce * - :py:attr:`~AddTotalTorsionalMoment` - Creates a new TotalTorsionalMoment * - :py:attr:`~AddTotalVelocity` - Creates a new TotalVelocity * - :py:attr:`~AddUserDefinedResult` - Creates a new UserDefinedResult * - :py:attr:`~AddVariableGraph` - Creates a new VariableGraph * - :py:attr:`~AddVectorAxialForce` - Creates a new VectorAxialForce * - :py:attr:`~AddVectorBendingMoment` - Creates a new VectorBendingMoment * - :py:attr:`~AddVectorDeformation` - Creates a new VectorDeformation * - :py:attr:`~AddVectorHeatFlux` - Creates a new VectorHeatFlux * - :py:attr:`~AddVectorPrincipalElasticStrain` - Creates a new VectorPrincipalElasticStrain * - :py:attr:`~AddVectorPrincipalStress` - Creates a new VectorPrincipalStress * - :py:attr:`~AddVectorShearForce` - Creates a new VectorShearForce * - :py:attr:`~AddVectorTorsionalMoment` - Creates a new VectorTorsionalMoment * - :py:attr:`~AddVelocityFrequencyResponse` - Creates a new VelocityFrequencyResponse * - :py:attr:`~AddVelocityPhaseResponse` - Creates a new VelocityPhaseResponse * - :py:attr:`~AddVelocityProbe` - Creates a new VelocityProbe * - :py:attr:`~AddVelocityWaterfallDiagram` - Creates a new VelocityWaterfallDiagram * - :py:attr:`~AddVoltageFrequencyResponse` - Creates a new VoltageFrequencyResponse * - :py:attr:`~AddVoltageProbe` - Creates a new ElectricVoltageProbe * - :py:attr:`~AddVolume` - Creates a new Volume * - :py:attr:`~AddVolumeProbe` - Creates a new VolumeProbe * - :py:attr:`~ClearGeneratedData` - Run the ClearGeneratedData action. * - :py:attr:`~ClearRemoteStorageData` - ClearRemoteStorageData method. * - :py:attr:`~CopyTo` - Copies all visible properties from this object to another. * - :py:attr:`~CreateParameter` - Creates a new parameter for a Property. * - :py:attr:`~CreateResultsAtAllSets` - CreateResultsAtAllSets method. * - :py:attr:`~DeleteRow` - DeleteRow method. * - :py:attr:`~DisconnectRemoteJob` - DisconnectRemoteJob method. * - :py:attr:`~Duplicate` - Creates a copy of the current DataModelObject. * - :py:attr:`~EvaluateAllContactTrackers` - EvaluateAllContactTrackers method. * - :py:attr:`~EvaluateAllResults` - Run the EvaluateAllResults action. * - :py:attr:`~EvaluateContactTracker` - EvaluateContactTracker method. * - :py:attr:`~ExecutePostCommands` - Run Execute Post Commands for all post command objects. * - :py:attr:`~ExportSubstructure` - Export Substructure to cpa file. * - :py:attr:`~ExtractSolutionStatistics` - ExtractSolutionStatistics method. * - :py:attr:`~FetchRemoteResults` - FetchRemoteResults method. * - :py:attr:`~FormatValue` - FormatValue method. * - :py:attr:`~GenerateAdaptedMesh` - GenerateAdaptedMesh method. * - :py:attr:`~GetChildren` - Gets the list of children, filtered by type. * - :py:attr:`~GetParameter` - Gets the parameter corresponding to the given property. * - :py:attr:`~GetResults` - Gets the Results from the server. * - :py:attr:`~GroupAllSimilarChildren` - Run the GroupAllSimilarChildren action. * - :py:attr:`~GroupSimilarObjects` - Run the GroupSimilarObjects action. * - :py:attr:`~IsResultFileChanged` - Checks if the referenced result file has been changed. * - :py:attr:`~IsResultFileSameAsLoaded` - Checks if the given result file is same the loaded result file * - :py:attr:`~OpenSolverFilesDirectory` - Run the OpenSolverFilesDirectory action. * - :py:attr:`~PropertyByAPIName` - Get a property by its API name. * - :py:attr:`~PropertyByName` - Get a property by its unique name. * - :py:attr:`~ReadAnsysResultFile` - Run the Ansys ReadResults action. * - :py:attr:`~ReadGivenAnsysResultFile` - Run the given Ansys ReadResults action./// * - :py:attr:`~ReadGivenAnsysResultFileByReference` - Run the given Ansys ReadResults by reference action./// * - :py:attr:`~ReconnectRemoteJob` - ReconnectRemoteJob method. * - :py:attr:`~RelinkResultFile` - Relink the result file. This action allows repairing the result file referencing without altering the generated result data. * - :py:attr:`~ReloadResultFile` - Reload the result file. For results-only systems, this action reloads the result mesh data and resets all result scopings. * - :py:attr:`~RemoveParameter` - Removes the parameter from the parameter set corresponding to the given property. * - :py:attr:`~Solve` - Run the Solve action. * - :py:attr:`~ValueForResultTracking` - ValueForResultTracking method. * - :py:attr:`~ValueForSolutionTracking` - ValueForSolutionTracking method. .. tab-item:: Properties .. list-table:: :header-rows: 0 :widths: auto * - :py:attr:`~AllThreadsCPUTime` - AllThreadsCPUTime property. * - :py:attr:`~CalculateBeamSectionResults` - Gets or sets the CalculateBeamSectionResults. * - :py:attr:`~CellId` - Gets the CellId. * - :py:attr:`~Children` - Gets the list of children. * - :py:attr:`~Comments` - Gets the list of associated comments. * - :py:attr:`~CyclicSectorDisplayRangeBegin` - Gets or sets the CyclicSectorDisplayRangeBegin. * - :py:attr:`~DataModelObjectCategory` - Gets the current DataModelObject's category. * - :py:attr:`~DateOfRun` - DateOfRun property. * - :py:attr:`~EigenSolverType` - EigenSolverType property. * - :py:attr:`~ElapsedRunTime` - Gets or sets the ElapsedRunTime. * - :py:attr:`~ElapsedTime` - ElapsedTime property. * - :py:attr:`~ElementLoadBalRatio` - ElementLoadBalRatio property. * - :py:attr:`~ElementSelection` - Gets or sets the ElementSelection. * - :py:attr:`~Elements` - Elements property. * - :py:attr:`~EquationSolverType` - EquationSolverType property. * - :py:attr:`~ExportTopologyFile` - Gets or sets the ExportTopologyFile. * - :py:attr:`~Figures` - Gets the list of associated figures. * - :py:attr:`~GPUType` - GPUType property. * - :py:attr:`~GpuAcceleration` - GpuAcceleration property. * - :py:attr:`~IOBound` - IOBound property. * - :py:attr:`~IORead` - IORead property. * - :py:attr:`~IOWrite` - IOWrite property. * - :py:attr:`~Images` - Gets the list of associated images. * - :py:attr:`~InternalObject` - Gets the internal object. For advanced usage only. * - :py:attr:`~IsAutoHybridParallel` - Returns if Hybrid Parallel was turned on by APDL or not (i.e. Automatic Hybrid Parallel) * - :py:attr:`~IsDataExtractionComplete` - IsDataExtractionComplete property. * - :py:attr:`~IsDistributedSolution` - IsDistributedSolution property. * - :py:attr:`~IsEigenSolver` - IsEigenSolver property. * - :py:attr:`~IsGPUAccelerationRequested` - IsGPUAccelerationRequested property. * - :py:attr:`~IsHybridParallelSolution` - IsHybridParallelSolution property. * - :py:attr:`~IsUnsymmetricMatrixSolve` - IsUnsymmetricMatrixSolve property. * - :py:attr:`~License` - License property. * - :py:attr:`~LicenseCoresAvailable` - LicenseCoresAvailable property. * - :py:attr:`~MPIType` - MPIType property. * - :py:attr:`~MSUPHarmonicAnalysis` - MSUPHarmonicAnalysis property. * - :py:attr:`~MainThreadCPUTime` - MainThreadCPUTime property. * - :py:attr:`~MaximumRefinementLoops` - Gets or sets the MaximumRefinementLoops. * - :py:attr:`~MemoryAvailable` - MemoryAvailable property. * - :py:attr:`~MemoryUsed` - Gets or sets the MemoryUsed. * - :py:attr:`~MeshSource` - Gets or sets the MeshSource. * - :py:attr:`~Nodes` - Nodes property. * - :py:attr:`~NumCoresAvailable` - NumCoresAvailable property. * - :py:attr:`~NumGPURequested` - NumGPURequested property. * - :py:attr:`~NumMachinesRequested` - NumMachinesRequested property. * - :py:attr:`~NumProcRequested` - NumProcRequested property. * - :py:attr:`~NumVirtualCoresAvailable` - NumVirtualCoresAvailable property. * - :py:attr:`~NumberOfDOF` - Get the Number of DOF. * - :py:attr:`~NumberOfProcessesRequested` - NumberOfProcessesRequested property. * - :py:attr:`~NumberofSectors` - Gets or sets the NumberofSectors. * - :py:attr:`~OperatingSystem` - OperatingSystem property. * - :py:attr:`~ProcessorModel` - ProcessorModel property. * - :py:attr:`~Properties` - Gets the list of properties for this object. * - :py:attr:`~RefinementDepth` - Gets or sets the RefinementDepth. * - :py:attr:`~ResultFileDirectory` - Gets the ResultFileDirectory. * - :py:attr:`~ResultFileName` - Gets the ResultFileName. * - :py:attr:`~ResultFilePath` - Get the result file full path. * - :py:attr:`~ResultFileSize` - Gets the ResultFileSize. * - :py:attr:`~ResultFileTimestamp` - Gets the ResultFileTimestamp. * - :py:attr:`~ResultFileUnitSystem` - Gets the ResultFileUnitSystem. * - :py:attr:`~ResultTrackingVectorLength` - ResultTrackingVectorLength property. * - :py:attr:`~SkipSolveCommand` - Gets or sets the flag to avoid issuing the solve command in the MAPDL solver. * - :py:attr:`~SolutionInformation` - Gets the SolutionInformation. * - :py:attr:`~SolutionTrackingVectorLength` - SolutionTrackingVectorLength property. * - :py:attr:`~SolutionUnitSystem` - SolutionUnitSystem property. * - :py:attr:`~SolverData` - SolverData property. * - :py:attr:`~SolverType` - SolverType property. * - :py:attr:`~SparseMode` - Get the Sparse Mode value. * - :py:attr:`~Status` - Gets the Status. * - :py:attr:`~ThreadsPerProcessRequested` - ThreadsPerProcessRequested property. * - :py:attr:`~TimeOfRun` - TimeOfRun property. * - :py:attr:`~TimeToCombineDistributedFiles` - TimeToCombineDistributedFiles property. * - :py:attr:`~TopologyResult` - Gets or sets the TopologyResult. * - :py:attr:`~TotalMemoryUsed` - TotalMemoryUsed property. * - :py:attr:`~VisibleProperties` - Gets the list of properties that are visible for this object. * - :py:attr:`~WorkingDir` - Gets the WorkingDir. Property detail --------------- .. py:property:: AllThreadsCPUTime :type: Optional[float] AllThreadsCPUTime property. .. !! processed by numpydoc !! .. py:property:: CalculateBeamSectionResults :type: Optional[bool] Gets or sets the CalculateBeamSectionResults. .. !! processed by numpydoc !! .. py:property:: CellId :type: Optional[str] Gets the CellId. .. !! processed by numpydoc !! .. py:property:: Children :type: Optional[List[Ansys.Mechanical.DataModel.Interfaces.IDataModelObject]] Gets the list of children. .. !! processed by numpydoc !! .. py:property:: Comments :type: Optional[Iterable[Ansys.ACT.Automation.Mechanical.Comment]] Gets the list of associated comments. .. !! processed by numpydoc !! .. py:property:: CyclicSectorDisplayRangeBegin :type: Optional[int] Gets or sets the CyclicSectorDisplayRangeBegin. .. !! processed by numpydoc !! .. py:property:: DataModelObjectCategory :type: Optional[Ansys.Mechanical.DataModel.Enums.DataModelObjectCategory] Gets the current DataModelObject's category. .. !! processed by numpydoc !! .. py:property:: DateOfRun :type: Optional[str] DateOfRun property. .. !! processed by numpydoc !! .. py:property:: EigenSolverType :type: Optional[Ansys.Mechanical.DataModel.Enums.EigenSolverType] EigenSolverType property. .. !! processed by numpydoc !! .. py:property:: ElapsedRunTime :type: Optional[float] Gets or sets the ElapsedRunTime. .. !! processed by numpydoc !! .. py:property:: ElapsedTime :type: Optional[float] ElapsedTime property. .. !! processed by numpydoc !! .. py:property:: ElementLoadBalRatio :type: Optional[float] ElementLoadBalRatio property. .. !! processed by numpydoc !! .. py:property:: ElementSelection :type: Optional[Ansys.Mechanical.DataModel.Enums.ConvergenceControlType] Gets or sets the ElementSelection. .. !! processed by numpydoc !! .. py:property:: Elements :type: Optional[int] Elements property. .. !! processed by numpydoc !! .. py:property:: EquationSolverType :type: Optional[Ansys.Mechanical.DataModel.Enums.EquationSolverType] EquationSolverType property. .. !! processed by numpydoc !! .. py:property:: ExportTopologyFile :type: Optional[Ansys.Mechanical.DataModel.Enums.ExportTopologyFileOption] Gets or sets the ExportTopologyFile. .. !! processed by numpydoc !! .. py:property:: Figures :type: Optional[Iterable[Ansys.ACT.Automation.Mechanical.Figure]] Gets the list of associated figures. .. !! processed by numpydoc !! .. py:property:: GPUType :type: Optional[Ansys.Common.Interop.DSObjectTypes.DSGPUType] GPUType property. .. !! processed by numpydoc !! .. py:property:: GpuAcceleration :type: Optional[str] GpuAcceleration property. .. !! processed by numpydoc !! .. py:property:: IOBound :type: Optional[bool] IOBound property. .. !! processed by numpydoc !! .. py:property:: IORead :type: Optional[float] IORead property. .. !! processed by numpydoc !! .. py:property:: IOWrite :type: Optional[float] IOWrite property. .. !! processed by numpydoc !! .. py:property:: Images :type: Optional[Iterable[Ansys.ACT.Automation.Mechanical.Image]] Gets the list of associated images. .. !! processed by numpydoc !! .. py:property:: InternalObject :type: Optional[Ansys.Common.Interop.DSObjectsAuto.IDSAnswerSetAuto] Gets the internal object. For advanced usage only. .. !! processed by numpydoc !! .. py:property:: IsAutoHybridParallel :type: Optional[bool] Returns if Hybrid Parallel was turned on by APDL or not (i.e. Automatic Hybrid Parallel) .. !! processed by numpydoc !! .. py:property:: IsDataExtractionComplete :type: Optional[bool] IsDataExtractionComplete property. .. !! processed by numpydoc !! .. py:property:: IsDistributedSolution :type: Optional[bool] IsDistributedSolution property. .. !! processed by numpydoc !! .. py:property:: IsEigenSolver :type: Optional[bool] IsEigenSolver property. .. !! processed by numpydoc !! .. py:property:: IsGPUAccelerationRequested :type: Optional[bool] IsGPUAccelerationRequested property. .. !! processed by numpydoc !! .. py:property:: IsHybridParallelSolution :type: Optional[bool] IsHybridParallelSolution property. .. !! processed by numpydoc !! .. py:property:: IsUnsymmetricMatrixSolve :type: Optional[bool] IsUnsymmetricMatrixSolve property. .. !! processed by numpydoc !! .. py:property:: License :type: Optional[str] License property. .. !! processed by numpydoc !! .. py:property:: LicenseCoresAvailable :type: Optional[int] LicenseCoresAvailable property. .. !! processed by numpydoc !! .. py:property:: MPIType :type: Optional[Ansys.Mechanical.DataModel.Enums.MPIType] MPIType property. .. !! processed by numpydoc !! .. py:property:: MSUPHarmonicAnalysis :type: Optional[bool] MSUPHarmonicAnalysis property. .. !! processed by numpydoc !! .. py:property:: MainThreadCPUTime :type: Optional[float] MainThreadCPUTime property. .. !! processed by numpydoc !! .. py:property:: MaximumRefinementLoops :type: Optional[int] Gets or sets the MaximumRefinementLoops. .. !! processed by numpydoc !! .. py:property:: MemoryAvailable :type: Optional[float] MemoryAvailable property. .. !! processed by numpydoc !! .. py:property:: MemoryUsed :type: Optional[float] Gets or sets the MemoryUsed. .. !! processed by numpydoc !! .. py:property:: MeshSource :type: Optional[Ansys.Mechanical.DataModel.Enums.MeshSourceType] Gets or sets the MeshSource. .. !! processed by numpydoc !! .. py:property:: Nodes :type: Optional[int] Nodes property. .. !! processed by numpydoc !! .. py:property:: NumCoresAvailable :type: Optional[int] NumCoresAvailable property. .. !! processed by numpydoc !! .. py:property:: NumGPURequested :type: Optional[int] NumGPURequested property. .. !! processed by numpydoc !! .. py:property:: NumMachinesRequested :type: Optional[int] NumMachinesRequested property. .. !! processed by numpydoc !! .. py:property:: NumProcRequested :type: Optional[int] NumProcRequested property. .. !! processed by numpydoc !! .. py:property:: NumVirtualCoresAvailable :type: Optional[int] NumVirtualCoresAvailable property. .. !! processed by numpydoc !! .. py:property:: NumberOfDOF :type: Optional[int] Get the Number of DOF. .. !! processed by numpydoc !! .. py:property:: NumberOfProcessesRequested :type: Optional[int] NumberOfProcessesRequested property. .. !! processed by numpydoc !! .. py:property:: NumberofSectors :type: Optional[int] Gets or sets the NumberofSectors. .. !! processed by numpydoc !! .. py:property:: OperatingSystem :type: Optional[str] OperatingSystem property. .. !! processed by numpydoc !! .. py:property:: ProcessorModel :type: Optional[str] ProcessorModel property. .. !! processed by numpydoc !! .. py:property:: Properties :type: Optional[tuple[Ansys.ACT.Automation.Mechanical.Property]] Gets the list of properties for this object. .. !! processed by numpydoc !! .. py:property:: RefinementDepth :type: Optional[int] Gets or sets the RefinementDepth. .. !! processed by numpydoc !! .. py:property:: ResultFileDirectory :type: Optional[str] Gets the ResultFileDirectory. .. !! processed by numpydoc !! .. py:property:: ResultFileName :type: Optional[str] Gets the ResultFileName. .. !! processed by numpydoc !! .. py:property:: ResultFilePath :type: Optional[str] Get the result file full path. .. !! processed by numpydoc !! .. py:property:: ResultFileSize :type: Optional[float] Gets the ResultFileSize. .. !! processed by numpydoc !! .. py:property:: ResultFileTimestamp :type: Optional[str] Gets the ResultFileTimestamp. .. !! processed by numpydoc !! .. py:property:: ResultFileUnitSystem :type: Optional[Ansys.Mechanical.DataModel.Enums.WBUnitSystemType] Gets the ResultFileUnitSystem. .. !! processed by numpydoc !! .. py:property:: ResultTrackingVectorLength :type: Optional[int] ResultTrackingVectorLength property. .. !! processed by numpydoc !! .. py:property:: SkipSolveCommand :type: Optional[bool] Gets or sets the flag to avoid issuing the solve command in the MAPDL solver. .. !! processed by numpydoc !! .. py:property:: SolutionInformation :type: Optional[Ansys.ACT.Automation.Mechanical.SolutionInformation] Gets the SolutionInformation. .. !! processed by numpydoc !! .. py:property:: SolutionTrackingVectorLength :type: Optional[int] SolutionTrackingVectorLength property. .. !! processed by numpydoc !! .. py:property:: SolutionUnitSystem :type: Optional[Ansys.ACT.Interfaces.Common.MechanicalUnitSystem] SolutionUnitSystem property. .. !! processed by numpydoc !! .. py:property:: SolverData :type: Optional[Any] SolverData property. .. !! processed by numpydoc !! .. py:property:: SolverType :type: Optional[Ansys.Mechanical.DataModel.Enums.SolverType] SolverType property. .. !! processed by numpydoc !! .. py:property:: SparseMode :type: Optional[int] Get the Sparse Mode value. .. !! processed by numpydoc !! .. py:property:: Status :type: Optional[Ansys.Mechanical.DataModel.Enums.SolutionStatusType] Gets the Status. .. !! processed by numpydoc !! .. py:property:: ThreadsPerProcessRequested :type: Optional[int] ThreadsPerProcessRequested property. .. !! processed by numpydoc !! .. py:property:: TimeOfRun :type: Optional[str] TimeOfRun property. .. !! processed by numpydoc !! .. py:property:: TimeToCombineDistributedFiles :type: Optional[float] TimeToCombineDistributedFiles property. .. !! processed by numpydoc !! .. py:property:: TopologyResult :type: Optional[Ansys.ACT.Automation.Mechanical.DataModelObject] Gets or sets the TopologyResult. .. !! processed by numpydoc !! .. py:property:: TotalMemoryUsed :type: Optional[float] TotalMemoryUsed property. .. !! processed by numpydoc !! .. py:property:: VisibleProperties :type: Optional[tuple[Ansys.ACT.Automation.Mechanical.Property]] Gets the list of properties that are visible for this object. .. !! processed by numpydoc !! .. py:property:: WorkingDir :type: Optional[str] Gets the WorkingDir. .. !! processed by numpydoc !! Method detail ------------- .. py:method:: Activate() -> None Activate the current object. .. !! processed by numpydoc !! .. py:method:: AddAccelerationFrequencyResponse() -> Ansys.ACT.Automation.Mechanical.Results.FrequencyResponseResults.AccelerationFrequencyResponse Creates a new AccelerationFrequencyResponse .. !! processed by numpydoc !! .. py:method:: AddAccelerationPhaseResponse() -> Ansys.ACT.Automation.Mechanical.Results.PhaseResponseResults.AccelerationPhaseResponse Creates a new AccelerationPhaseResponse .. !! processed by numpydoc !! .. py:method:: AddAccelerationProbe() -> Ansys.ACT.Automation.Mechanical.Results.ProbeResults.AccelerationProbe Creates a new AccelerationProbe .. !! processed by numpydoc !! .. py:method:: AddAccelerationWaterfallDiagram() -> Ansys.ACT.Automation.Mechanical.Results.FrequencyResponseResults.AccelerationWaterfallDiagram Creates a new AccelerationWaterfallDiagram .. !! processed by numpydoc !! .. py:method:: AddAccumulatedEquivalentPlasticStrain() -> Ansys.ACT.Automation.Mechanical.Results.StrainResults.AccumulatedEquivalentPlasticStrain Creates a new AccumulatedEquivalentPlasticStrain .. !! processed by numpydoc !! .. py:method:: AddAcousticAWeightedSPLFrequencyResponse() -> Ansys.ACT.Automation.Mechanical.Results.FrequencyResponseResults.AcousticAWeightedSPLFrequencyResponse Creates a new AcousticAWeightedSPLFrequencyResponse .. !! processed by numpydoc !! .. py:method:: AddAcousticAWeightedSoundPressureLevel() -> Ansys.ACT.Automation.Mechanical.Results.AcousticResults.AcousticAWeightedSoundPressureLevel Creates a new AcousticAWeightedSoundPressureLevel .. !! processed by numpydoc !! .. py:method:: AddAcousticAbsorptionCoefficient() -> Ansys.ACT.Automation.Mechanical.Results.AcousticResults.AcousticAbsorptionCoefficient Creates a new AcousticAbsorptionCoefficient .. !! processed by numpydoc !! .. py:method:: AddAcousticDiffuseSoundTransmissionLoss() -> Ansys.ACT.Automation.Mechanical.Results.AcousticResults.AcousticDiffuseSoundTransmissionLoss Creates a new AcousticDiffuseSoundTransmissionLoss .. !! processed by numpydoc !! .. py:method:: AddAcousticDirectionalVelocityResult() -> Ansys.ACT.Automation.Mechanical.Results.AcousticResults.AcousticDirectionalVelocityResult Creates a new AcousticDirectionalVelocityResult .. !! processed by numpydoc !! .. py:method:: AddAcousticFarFieldAWeightedSPL() -> Ansys.ACT.Automation.Mechanical.Results.AcousticResults.AcousticFarFieldResult Creates a new AcousticFarFieldResult .. !! processed by numpydoc !! .. py:method:: AddAcousticFarFieldAWeightedSPLMic() -> Ansys.ACT.Automation.Mechanical.Results.AcousticResults.AcousticFarFieldResult Creates a new AcousticFarFieldResult .. !! processed by numpydoc !! .. py:method:: AddAcousticFarFieldDirectivity() -> Ansys.ACT.Automation.Mechanical.Results.AcousticResults.AcousticFarFieldResult Creates a new AcousticFarFieldResult .. !! processed by numpydoc !! .. py:method:: AddAcousticFarFieldMaximumPressure() -> Ansys.ACT.Automation.Mechanical.Results.AcousticResults.AcousticFarFieldResult Creates a new AcousticFarFieldResult .. !! processed by numpydoc !! .. py:method:: AddAcousticFarFieldMaximumPressureMic() -> Ansys.ACT.Automation.Mechanical.Results.AcousticResults.AcousticFarFieldResult Creates a new AcousticFarFieldResult .. !! processed by numpydoc !! .. py:method:: AddAcousticFarFieldMaximumScatteredPressure() -> Ansys.ACT.Automation.Mechanical.Results.AcousticResults.AcousticFarFieldResult Creates a new AcousticFarFieldResult .. !! processed by numpydoc !! .. py:method:: AddAcousticFarFieldPhase() -> Ansys.ACT.Automation.Mechanical.Results.AcousticResults.AcousticFarFieldResult Creates a new AcousticFarFieldResult .. !! processed by numpydoc !! .. py:method:: AddAcousticFarFieldPhaseMic() -> Ansys.ACT.Automation.Mechanical.Results.AcousticResults.AcousticFarFieldResult Creates a new AcousticFarFieldResult .. !! processed by numpydoc !! .. py:method:: AddAcousticFarFieldSPL() -> Ansys.ACT.Automation.Mechanical.Results.AcousticResults.AcousticFarFieldResult Creates a new AcousticFarFieldResult .. !! processed by numpydoc !! .. py:method:: AddAcousticFarFieldSPLMic() -> Ansys.ACT.Automation.Mechanical.Results.AcousticResults.AcousticFarFieldResult Creates a new AcousticFarFieldResult .. !! processed by numpydoc !! .. py:method:: AddAcousticFarFieldSPLMicWaterfallDiagram() -> Ansys.ACT.Automation.Mechanical.Results.AcousticResults.AcousticFarFieldSPLMicWaterfallDiagram Creates a new AcousticFarFieldSPLMicWaterfallDiagram .. !! processed by numpydoc !! .. py:method:: AddAcousticFarFieldSoundPowerLevel() -> Ansys.ACT.Automation.Mechanical.Results.AcousticResults.AcousticFarFieldResult Creates a new AcousticFarFieldResult .. !! processed by numpydoc !! .. py:method:: AddAcousticFarFieldSoundPowerLevelWaterfallDiagram() -> Ansys.ACT.Automation.Mechanical.Results.AcousticResults.AcousticFarFieldSoundPowerLevelWaterfallDiagram Creates a new AcousticFarFieldSoundPowerLevelWaterfallDiagram .. !! processed by numpydoc !! .. py:method:: AddAcousticFarFieldTargetStrength() -> Ansys.ACT.Automation.Mechanical.Results.AcousticResults.AcousticFarFieldResult Creates a new AcousticFarFieldResult .. !! processed by numpydoc !! .. py:method:: AddAcousticFrequencyBandAWeightedSPL() -> Ansys.ACT.Automation.Mechanical.Results.AcousticResults.AcousticFrequencyBandAWeightedSPL Creates a new AcousticFrequencyBandAWeightedSPL .. !! processed by numpydoc !! .. py:method:: AddAcousticFrequencyBandSPL() -> Ansys.ACT.Automation.Mechanical.Results.AcousticResults.AcousticFrequencyBandSPL Creates a new AcousticFrequencyBandSPL .. !! processed by numpydoc !! .. py:method:: AddAcousticKineticEnergy() -> Ansys.ACT.Automation.Mechanical.Results.AcousticResults.AcousticKineticEnergy Creates a new AcousticKineticEnergy .. !! processed by numpydoc !! .. py:method:: AddAcousticKineticEnergyFrequencyResponse() -> Ansys.ACT.Automation.Mechanical.Results.FrequencyResponseResults.AcousticKineticEnergyFrequencyResponse Creates a new AcousticKineticEnergyFrequencyResponse .. !! processed by numpydoc !! .. py:method:: AddAcousticPotentialEnergy() -> Ansys.ACT.Automation.Mechanical.Results.AcousticResults.AcousticPotentialEnergy Creates a new AcousticPotentialEnergy .. !! processed by numpydoc !! .. py:method:: AddAcousticPotentialEnergyFrequencyResponse() -> Ansys.ACT.Automation.Mechanical.Results.FrequencyResponseResults.AcousticPotentialEnergyFrequencyResponse Creates a new AcousticPotentialEnergyFrequencyResponse .. !! processed by numpydoc !! .. py:method:: AddAcousticPressureFrequencyResponse() -> Ansys.ACT.Automation.Mechanical.Results.FrequencyResponseResults.AcousticPressureFrequencyResponse Creates a new AcousticPressureFrequencyResponse .. !! processed by numpydoc !! .. py:method:: AddAcousticPressureResult() -> Ansys.ACT.Automation.Mechanical.Results.AcousticResults.AcousticPressureResult Creates a new AcousticPressureResult .. !! processed by numpydoc !! .. py:method:: AddAcousticReturnLoss() -> Ansys.ACT.Automation.Mechanical.Results.AcousticResults.AcousticReturnLoss Creates a new AcousticReturnLoss .. !! processed by numpydoc !! .. py:method:: AddAcousticSPLFrequencyResponse() -> Ansys.ACT.Automation.Mechanical.Results.FrequencyResponseResults.AcousticSPLFrequencyResponse Creates a new AcousticSPLFrequencyResponse .. !! processed by numpydoc !! .. py:method:: AddAcousticSoundPressureLevel() -> Ansys.ACT.Automation.Mechanical.Results.AcousticResults.AcousticSoundPressureLevel Creates a new AcousticSoundPressureLevel .. !! processed by numpydoc !! .. py:method:: AddAcousticTotalVelocityResult() -> Ansys.ACT.Automation.Mechanical.Results.AcousticResults.AcousticTotalVelocityResult Creates a new AcousticTotalVelocityResult .. !! processed by numpydoc !! .. py:method:: AddAcousticTransmissionLoss() -> Ansys.ACT.Automation.Mechanical.Results.AcousticResults.AcousticTransmissionLoss Creates a new AcousticTransmissionLoss .. !! processed by numpydoc !! .. py:method:: AddAcousticVelocityFrequencyResponse() -> Ansys.ACT.Automation.Mechanical.Results.FrequencyResponseResults.AcousticVelocityFrequencyResponse Creates a new AcousticVelocityFrequencyResponse .. !! processed by numpydoc !! .. py:method:: AddAngularAccelerationProbe() -> Ansys.ACT.Automation.Mechanical.Results.ProbeResults.AngularAccelerationProbe Creates a new AngularAccelerationProbe .. !! processed by numpydoc !! .. py:method:: AddAngularVelocityProbe() -> Ansys.ACT.Automation.Mechanical.Results.ProbeResults.AngularVelocityProbe Creates a new AngularVelocityProbe .. !! processed by numpydoc !! .. py:method:: AddBeamProbe() -> Ansys.ACT.Automation.Mechanical.Results.ProbeResults.BeamProbe Creates a new BeamProbe .. !! processed by numpydoc !! .. py:method:: AddBeamTool() -> Ansys.ACT.Automation.Mechanical.Results.BeamToolResults.BeamTool Creates a new BeamTool .. !! processed by numpydoc !! .. py:method:: AddBearingProbe() -> Ansys.ACT.Automation.Mechanical.Results.ProbeResults.BearingProbe Creates a new BearingProbe .. !! processed by numpydoc !! .. py:method:: AddBendingStressEquivalent() -> Ansys.ACT.Automation.Mechanical.Results.StressResults.BendingStressEquivalent Creates a new BendingStressEquivalent .. !! processed by numpydoc !! .. py:method:: AddBendingStressIntensity() -> Ansys.ACT.Automation.Mechanical.Results.StressResults.BendingStressIntensity Creates a new BendingStressIntensity .. !! processed by numpydoc !! .. py:method:: AddBoltPretensionProbe() -> Ansys.ACT.Automation.Mechanical.Results.ProbeResults.BoltPretensionProbe Creates a new BoltPretensionProbe .. !! processed by numpydoc !! .. py:method:: AddBoltTool() -> Ansys.ACT.Automation.Mechanical.Results.BoltToolResults.BoltTool Creates a new BoltTool .. !! processed by numpydoc !! .. py:method:: AddCampbellDiagram() -> Ansys.ACT.Automation.Mechanical.Results.ResultTrackers.CampbellDiagram Creates a new CampbellDiagram .. !! processed by numpydoc !! .. py:method:: AddChargeReactionFrequencyResponse() -> Ansys.ACT.Automation.Mechanical.Results.FrequencyResponseResults.ChargeReactionFrequencyResponse Creates a new ChargeReactionFrequencyResponse .. !! processed by numpydoc !! .. py:method:: AddChargeReactionProbe() -> Ansys.ACT.Automation.Mechanical.Results.ProbeResults.ChargeReactionProbe Creates a new ChargeReactionProbe .. !! processed by numpydoc !! .. py:method:: AddCommandSnippet() -> Ansys.ACT.Automation.Mechanical.CommandSnippet Creates a new CommandSnippet .. !! processed by numpydoc !! .. py:method:: AddComment() -> Ansys.ACT.Automation.Mechanical.Comment Creates a new child Comment. .. !! processed by numpydoc !! .. py:method:: AddCompositeCriterion() -> Ansys.ACT.Automation.Mechanical.CompositeCriterion Creates a new CompositeCriterion .. !! processed by numpydoc !! .. py:method:: AddCompositeFailureTool() -> Ansys.ACT.Automation.Mechanical.Results.CompositeFailureResults.CompositeFailureTool Creates a new CompositeFailureTool .. !! processed by numpydoc !! .. py:method:: AddCompositeSamplingPointTool() -> Ansys.ACT.Automation.Mechanical.Results.CompositeFailureResults.CompositeSamplingPointTool Creates a new CompositeSamplingPointTool .. !! processed by numpydoc !! .. py:method:: AddContactDistanceProbe() -> Ansys.ACT.Automation.Mechanical.Results.ProbeResults.ContactDistanceProbe Creates a new ContactDistanceProbe .. !! processed by numpydoc !! .. py:method:: AddContactTool() -> Ansys.ACT.Automation.Mechanical.PostContactTool Creates a new ContactTool .. !! processed by numpydoc !! .. py:method:: AddCurrentDensity() -> Ansys.ACT.Automation.Mechanical.Results.ElectromagneticResults.CurrentDensity Creates a new CurrentDensity .. !! processed by numpydoc !! .. py:method:: AddCurrentDensityProbe() -> Ansys.ACT.Automation.Mechanical.Results.ProbeResults.CurrentDensityProbe Creates a new CurrentDensityProbe .. !! processed by numpydoc !! .. py:method:: AddDamageStatus() -> Ansys.ACT.Automation.Mechanical.Results.DamageResults.DamageStatus Creates a new DamageStatus .. !! processed by numpydoc !! .. py:method:: AddDeformationFrequencyResponse() -> Ansys.ACT.Automation.Mechanical.Results.FrequencyResponseResults.DeformationFrequencyResponse Creates a new DeformationFrequencyResponse .. !! processed by numpydoc !! .. py:method:: AddDeformationPhaseResponse() -> Ansys.ACT.Automation.Mechanical.Results.PhaseResponseResults.DeformationPhaseResponse Creates a new DeformationPhaseResponse .. !! processed by numpydoc !! .. py:method:: AddDeformationProbe() -> Ansys.ACT.Automation.Mechanical.Results.ProbeResults.DeformationProbe Creates a new DeformationProbe .. !! processed by numpydoc !! .. py:method:: AddDirectionalAcceleration() -> Ansys.ACT.Automation.Mechanical.Results.DeformationResults.DirectionalAcceleration Creates a new DirectionalAcceleration .. !! processed by numpydoc !! .. py:method:: AddDirectionalAccelerationPSD() -> Ansys.ACT.Automation.Mechanical.Results.DeformationResults.DirectionalAccelerationPSD Creates a new DirectionalAccelerationPSD .. !! processed by numpydoc !! .. py:method:: AddDirectionalAccelerationRS() -> Ansys.ACT.Automation.Mechanical.Results.DeformationResults.DirectionalAccelerationRS Creates a new DirectionalAccelerationRS .. !! processed by numpydoc !! .. py:method:: AddDirectionalAxialForce() -> Ansys.ACT.Automation.Mechanical.Results.BeamResults.DirectionalAxialForce Creates a new DirectionalAxialForce .. !! processed by numpydoc !! .. py:method:: AddDirectionalBendingMoment() -> Ansys.ACT.Automation.Mechanical.Results.BeamResults.DirectionalBendingMoment Creates a new DirectionalBendingMoment .. !! processed by numpydoc !! .. py:method:: AddDirectionalCurrentDensity() -> Ansys.ACT.Automation.Mechanical.Results.ElectricResults.DirectionalCurrentDensity Creates a new DirectionalCurrentDensity .. !! processed by numpydoc !! .. py:method:: AddDirectionalDeformation() -> Ansys.ACT.Automation.Mechanical.Results.DeformationResults.DirectionalDeformation Creates a new DirectionalDeformation .. !! processed by numpydoc !! .. py:method:: AddDirectionalElectricFieldIntensity() -> Ansys.ACT.Automation.Mechanical.Results.ElectricResults.DirectionalElectricFieldIntensity Creates a new DirectionalElectricFieldIntensity .. !! processed by numpydoc !! .. py:method:: AddDirectionalElectricFluxDensity() -> Ansys.ACT.Automation.Mechanical.Results.ElectricResults.DirectionalElectricFluxDensity Creates a new DirectionalElectricFluxDensity .. !! processed by numpydoc !! .. py:method:: AddDirectionalElectrostaticForce() -> Ansys.ACT.Automation.Mechanical.Results.ElectricResults.DirectionalElectrostaticForce Creates a new DirectionalElectrostaticForce .. !! processed by numpydoc !! .. py:method:: AddDirectionalHeatFlux() -> Ansys.ACT.Automation.Mechanical.Results.ThermalResults.DirectionalHeatFlux Creates a new DirectionalHeatFlux .. !! processed by numpydoc !! .. py:method:: AddDirectionalMagneticFieldIntensity() -> Ansys.ACT.Automation.Mechanical.Results.ElectromagneticResults.DirectionalMagneticFieldIntensity Creates a new DirectionalMagneticFieldIntensity .. !! processed by numpydoc !! .. py:method:: AddDirectionalMagneticFluxDensity() -> Ansys.ACT.Automation.Mechanical.Results.ElectromagneticResults.DirectionalMagneticFluxDensity Creates a new DirectionalMagneticFluxDensity .. !! processed by numpydoc !! .. py:method:: AddDirectionalShearForce() -> Ansys.ACT.Automation.Mechanical.Results.BeamResults.DirectionalShearForce Creates a new DirectionalShearForce .. !! processed by numpydoc !! .. py:method:: AddDirectionalTorsionalMoment() -> Ansys.ACT.Automation.Mechanical.Results.BeamResults.DirectionalTorsionalMoment Creates a new DirectionalTorsionalMoment .. !! processed by numpydoc !! .. py:method:: AddDirectionalVelocity() -> Ansys.ACT.Automation.Mechanical.Results.DeformationResults.DirectionalVelocity Creates a new DirectionalVelocity .. !! processed by numpydoc !! .. py:method:: AddDirectionalVelocityPSD() -> Ansys.ACT.Automation.Mechanical.Results.DeformationResults.DirectionalVelocityPSD Creates a new DirectionalVelocityPSD .. !! processed by numpydoc !! .. py:method:: AddDirectionalVelocityRS() -> Ansys.ACT.Automation.Mechanical.Results.DeformationResults.DirectionalVelocityRS Creates a new DirectionalVelocityRS .. !! processed by numpydoc !! .. py:method:: AddElasticStrainFrequencyResponse() -> Ansys.ACT.Automation.Mechanical.Results.FrequencyResponseResults.ElasticStrainFrequencyResponse Creates a new ElasticStrainFrequencyResponse .. !! processed by numpydoc !! .. py:method:: AddElasticStrainIntensity() -> Ansys.ACT.Automation.Mechanical.Results.StrainResults.ElasticStrainIntensity Creates a new ElasticStrainIntensity .. !! processed by numpydoc !! .. py:method:: AddElasticStrainPhaseResponse() -> Ansys.ACT.Automation.Mechanical.Results.PhaseResponseResults.ElasticStrainPhaseResponse Creates a new ElasticStrainPhaseResponse .. !! processed by numpydoc !! .. py:method:: AddElectricFieldProbe() -> Ansys.ACT.Automation.Mechanical.Results.ProbeResults.ElectricFieldProbe Creates a new ElectricFieldProbe .. !! processed by numpydoc !! .. py:method:: AddElectricPotential() -> Ansys.ACT.Automation.Mechanical.Results.ElectromagneticResults.ElectricPotential Creates a new ElectricPotential .. !! processed by numpydoc !! .. py:method:: AddElectricVoltage() -> Ansys.ACT.Automation.Mechanical.Results.ElectricResults.ElectricVoltage Creates a new ElectricVoltage .. !! processed by numpydoc !! .. py:method:: AddElectromechanicalCouplingCoefficient() -> Ansys.ACT.Automation.Mechanical.Results.ProbeResults.ElectromechanicalCouplingCoefficient Creates a new ElectromechanicalCouplingCoefficient .. !! processed by numpydoc !! .. py:method:: AddElementalEulerXYAngle() -> Ansys.ACT.Automation.Mechanical.Results.CoordinateSystemsResults.ElementalEulerXYAngle Creates a new ElementalEulerXYAngle .. !! processed by numpydoc !! .. py:method:: AddElementalEulerXZAngle() -> Ansys.ACT.Automation.Mechanical.Results.CoordinateSystemsResults.ElementalEulerXZAngle Creates a new ElementalEulerXZAngle .. !! processed by numpydoc !! .. py:method:: AddElementalEulerYZAngle() -> Ansys.ACT.Automation.Mechanical.Results.CoordinateSystemsResults.ElementalEulerYZAngle Creates a new ElementalEulerYZAngle .. !! processed by numpydoc !! .. py:method:: AddElementalStrainEnergy() -> Ansys.ACT.Automation.Mechanical.Results.EnergyResults.ElementalStrainEnergy Creates a new ElementalStrainEnergy .. !! processed by numpydoc !! .. py:method:: AddElementalTriads() -> Ansys.ACT.Automation.Mechanical.Results.CoordinateSystemsResults.ElementalTriads Creates a new ElementalTriads .. !! processed by numpydoc !! .. py:method:: AddEmagReactionProbe() -> Ansys.ACT.Automation.Mechanical.Results.ProbeResults.EmagReactionProbe Creates a new EmagReactionProbe .. !! processed by numpydoc !! .. py:method:: AddEnergyDissipatedPerUnitVolume() -> Ansys.ACT.Automation.Mechanical.Results.DamageResults.EnergyDissipatedPerUnitVolume Creates a new EnergyDissipatedPerUnitVolume .. !! processed by numpydoc !! .. py:method:: AddEnergyProbe() -> Ansys.ACT.Automation.Mechanical.Results.ProbeResults.EnergyProbe Creates a new EnergyProbe .. !! processed by numpydoc !! .. py:method:: AddEquivalentCreepStrain() -> Ansys.ACT.Automation.Mechanical.Results.StrainResults.EquivalentCreepStrain Creates a new EquivalentCreepStrain .. !! processed by numpydoc !! .. py:method:: AddEquivalentCreepStrainRST() -> Ansys.ACT.Automation.Mechanical.Results.StrainResults.EquivalentCreepStrainRST Creates a new EquivalentCreepStrainRST .. !! processed by numpydoc !! .. py:method:: AddEquivalentElasticStrain() -> Ansys.ACT.Automation.Mechanical.Results.StrainResults.EquivalentElasticStrain Creates a new EquivalentElasticStrain .. !! processed by numpydoc !! .. py:method:: AddEquivalentElasticStrainRST() -> Ansys.ACT.Automation.Mechanical.Results.StrainResults.EquivalentElasticStrainRST Creates a new EquivalentElasticStrainRST .. !! processed by numpydoc !! .. py:method:: AddEquivalentPlasticStrain() -> Ansys.ACT.Automation.Mechanical.Results.StrainResults.EquivalentPlasticStrain Creates a new EquivalentPlasticStrain .. !! processed by numpydoc !! .. py:method:: AddEquivalentPlasticStrainRST() -> Ansys.ACT.Automation.Mechanical.Results.StrainResults.EquivalentPlasticStrainRST Creates a new EquivalentPlasticStrainRST .. !! processed by numpydoc !! .. py:method:: AddEquivalentRadiatedPower() -> Ansys.ACT.Automation.Mechanical.Results.FrequencyResponseResults.EquivalentRadiatedPower Creates a new EquivalentRadiatedPower .. !! processed by numpydoc !! .. py:method:: AddEquivalentRadiatedPowerLevel() -> Ansys.ACT.Automation.Mechanical.Results.FrequencyResponseResults.EquivalentRadiatedPowerLevel Creates a new EquivalentRadiatedPowerLevel .. !! processed by numpydoc !! .. py:method:: AddEquivalentRadiatedPowerLevelWaterfallDiagram() -> Ansys.ACT.Automation.Mechanical.Results.FrequencyResponseResults.EquivalentRadiatedPowerLevelWaterfallDiagram Creates a new EquivalentRadiatedPowerLevelWaterfallDiagram .. !! processed by numpydoc !! .. py:method:: AddEquivalentRadiatedPowerWaterfallDiagram() -> Ansys.ACT.Automation.Mechanical.Results.FrequencyResponseResults.EquivalentRadiatedPowerWaterfallDiagram Creates a new EquivalentRadiatedPowerWaterfallDiagram .. !! processed by numpydoc !! .. py:method:: AddEquivalentStress() -> Ansys.ACT.Automation.Mechanical.Results.StressResults.EquivalentStress Creates a new EquivalentStress .. !! processed by numpydoc !! .. py:method:: AddEquivalentStressPSD() -> Ansys.ACT.Automation.Mechanical.Results.StressResults.EquivalentStressPSD Creates a new EquivalentStressPSD .. !! processed by numpydoc !! .. py:method:: AddEquivalentStressRS() -> Ansys.ACT.Automation.Mechanical.Results.StressResults.EquivalentStressRS Creates a new EquivalentStressRS .. !! processed by numpydoc !! .. py:method:: AddEquivalentTotalStrain() -> Ansys.ACT.Automation.Mechanical.Results.StrainResults.EquivalentTotalStrain Creates a new EquivalentTotalStrain .. !! processed by numpydoc !! .. py:method:: AddExpansionSettings() -> Ansys.ACT.Automation.Mechanical.ExpansionSettings Creates a new ExpansionSettings .. !! processed by numpydoc !! .. py:method:: AddFatigueTool() -> Ansys.ACT.Automation.Mechanical.FatigueTool AddFatigueTool method. .. !! processed by numpydoc !! .. py:method:: AddFiberCompressiveDamageVariable() -> Ansys.ACT.Automation.Mechanical.Results.DamageResults.FiberCompressiveDamageVariable Creates a new FiberCompressiveDamageVariable .. !! processed by numpydoc !! .. py:method:: AddFiberCompressiveFailureCriterion() -> Ansys.ACT.Automation.Mechanical.Results.DamageResults.FiberCompressiveFailureCriterion Creates a new FiberCompressiveFailureCriterion .. !! processed by numpydoc !! .. py:method:: AddFiberTensileDamageVariable() -> Ansys.ACT.Automation.Mechanical.Results.DamageResults.FiberTensileDamageVariable Creates a new FiberTensileDamageVariable .. !! processed by numpydoc !! .. py:method:: AddFiberTensileFailureCriterion() -> Ansys.ACT.Automation.Mechanical.Results.DamageResults.FiberTensileFailureCriterion Creates a new FiberTensileFailureCriterion .. !! processed by numpydoc !! .. py:method:: AddFieldIntensityProbe() -> Ansys.ACT.Automation.Mechanical.Results.ProbeResults.FieldIntensityProbe Creates a new FieldIntensityProbe .. !! processed by numpydoc !! .. py:method:: AddFigure() -> Ansys.ACT.Automation.Mechanical.Figure Creates a new child Figure. .. !! processed by numpydoc !! .. py:method:: AddFlexibleRotationProbe() -> Ansys.ACT.Automation.Mechanical.Results.ProbeResults.FlexibleRotationProbe Creates a new FlexibleRotationProbe .. !! processed by numpydoc !! .. py:method:: AddFluidFlowRate() -> Ansys.ACT.Automation.Mechanical.Results.ThermalResults.FluidFlowRate Creates a new FluidFlowRate .. !! processed by numpydoc !! .. py:method:: AddFluidHeatConductionRate() -> Ansys.ACT.Automation.Mechanical.Results.ThermalResults.FluidHeatConductionRate Creates a new FluidHeatConductionRate .. !! processed by numpydoc !! .. py:method:: AddFluidHeatTransportRate() -> Ansys.ACT.Automation.Mechanical.Results.ThermalResults.FluidHeatTransportRate Creates a new FluidHeatTransportRate .. !! processed by numpydoc !! .. py:method:: AddFluxDensityProbe() -> Ansys.ACT.Automation.Mechanical.Results.ProbeResults.FluxDensityProbe Creates a new FluxDensityProbe .. !! processed by numpydoc !! .. py:method:: AddFluxLinkage() -> Ansys.ACT.Automation.Mechanical.Results.ElectromagneticResults.FluxLinkage Creates a new FluxLinkage .. !! processed by numpydoc !! .. py:method:: AddForceReaction() -> Ansys.ACT.Automation.Mechanical.Results.ProbeResults.ForceReaction Creates a new ForceReaction .. !! processed by numpydoc !! .. py:method:: AddForceReactionFrequencyResponse() -> Ansys.ACT.Automation.Mechanical.Results.FrequencyResponseResults.ForceReactionFrequencyResponse Creates a new ForceReactionFrequencyResponse .. !! processed by numpydoc !! .. py:method:: AddForceReactionsForContactRegions(contactRegionObjIds: Iterable[int]) -> None AddForceReactionsForContactRegions method. .. !! processed by numpydoc !! .. py:method:: AddForceSummationProbe() -> Ansys.ACT.Automation.Mechanical.Results.ProbeResults.ForceSummationProbe Creates a new ForceSummationProbe .. !! processed by numpydoc !! .. py:method:: AddFractureTool() -> Ansys.ACT.Automation.Mechanical.Results.FractureToolResults.FractureTool Creates a new FractureTool .. !! processed by numpydoc !! .. py:method:: AddGeneralizedPlaneStrainProbe() -> Ansys.ACT.Automation.Mechanical.Results.ProbeResults.GeneralizedPlaneStrainProbe Creates a new GeneralizedPlaneStrainProbe .. !! processed by numpydoc !! .. py:method:: AddGroupedScopedACPResults(resultType: Ansys.Mechanical.DataModel.Enums.ResultType, selectedPlies: Iterable[Ansys.Mechanical.DataModel.Interfaces.IDataModelObject]) -> None AddGroupedScopedACPResults method. .. !! processed by numpydoc !! .. py:method:: AddGroupedScopedCustomResult(selectedPlies: Iterable[Ansys.Mechanical.DataModel.Interfaces.IDataModelObject]) -> None AddGroupedScopedCustomResult method. .. !! processed by numpydoc !! .. py:method:: AddHeatFluxProbe() -> Ansys.ACT.Automation.Mechanical.Results.ProbeResults.HeatFluxProbe Creates a new HeatFluxProbe .. !! processed by numpydoc !! .. py:method:: AddImage(filePath: str) -> Ansys.ACT.Automation.Mechanical.Image .. code-block:: text 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. .. !! processed by numpydoc !! .. py:method:: AddImpedanceFrequencyResponse() -> Ansys.ACT.Automation.Mechanical.Results.FrequencyResponseResults.ImpedanceFrequencyResponse Creates a new ImpedanceFrequencyResponse .. !! processed by numpydoc !! .. py:method:: AddImpedanceProbe() -> Ansys.ACT.Automation.Mechanical.Results.ProbeResults.ImpedanceProbe Creates a new ImpedanceProbe .. !! processed by numpydoc !! .. py:method:: AddInductance() -> Ansys.ACT.Automation.Mechanical.Results.ElectromagneticResults.Inductance Creates a new Inductance .. !! processed by numpydoc !! .. py:method:: AddJointProbe() -> Ansys.ACT.Automation.Mechanical.Results.ProbeResults.JointProbe Creates a new JointProbe .. !! processed by numpydoc !! .. py:method:: AddJouleHeat() -> Ansys.ACT.Automation.Mechanical.Results.ElectricResults.JouleHeat Creates a new JouleHeat .. !! processed by numpydoc !! .. py:method:: AddJouleHeatProbe() -> Ansys.ACT.Automation.Mechanical.Results.ProbeResults.JouleHeatProbe Creates a new JouleHeatProbe .. !! processed by numpydoc !! .. py:method:: AddLatticeDensity() -> Ansys.ACT.Automation.Mechanical.Results.LatticeDensity Creates a new LatticeDensity .. !! processed by numpydoc !! .. py:method:: AddLatticeElementalDensity() -> Ansys.ACT.Automation.Mechanical.Results.LatticeElementalDensity Creates a new LatticeElementalDensity .. !! processed by numpydoc !! .. py:method:: AddLineChart2D() -> Ansys.ACT.Automation.Mechanical.LineChart2D Creates a new LineChart2D .. !! processed by numpydoc !! .. py:method:: AddLinePressureResult() -> Ansys.ACT.Automation.Mechanical.Results.LinePressureResult Creates a new LinePressureResult .. !! processed by numpydoc !! .. py:method:: AddLinearizedEquivalentStress() -> Ansys.ACT.Automation.Mechanical.Results.LinearizedStressResults.LinearizedEquivalentStress Creates a new LinearizedEquivalentStress .. !! processed by numpydoc !! .. py:method:: AddLinearizedMaximumPrincipalStress() -> Ansys.ACT.Automation.Mechanical.Results.LinearizedStressResults.LinearizedMaximumPrincipalStress Creates a new LinearizedMaximumPrincipalStress .. !! processed by numpydoc !! .. py:method:: AddLinearizedMaximumShearStress() -> Ansys.ACT.Automation.Mechanical.Results.LinearizedStressResults.LinearizedMaximumShearStress Creates a new LinearizedMaximumShearStress .. !! processed by numpydoc !! .. py:method:: AddLinearizedMiddlePrincipalStress() -> Ansys.ACT.Automation.Mechanical.Results.LinearizedStressResults.LinearizedMiddlePrincipalStress Creates a new LinearizedMiddlePrincipalStress .. !! processed by numpydoc !! .. py:method:: AddLinearizedMinimumPrincipalStress() -> Ansys.ACT.Automation.Mechanical.Results.LinearizedStressResults.LinearizedMinimumPrincipalStress Creates a new LinearizedMinimumPrincipalStress .. !! processed by numpydoc !! .. py:method:: AddLinearizedNormalStress() -> Ansys.ACT.Automation.Mechanical.Results.LinearizedStressResults.LinearizedNormalStress Creates a new LinearizedNormalStress .. !! processed by numpydoc !! .. py:method:: AddLinearizedShearStress() -> Ansys.ACT.Automation.Mechanical.Results.LinearizedStressResults.LinearizedShearStress Creates a new LinearizedShearStress .. !! processed by numpydoc !! .. py:method:: AddLinearizedStressIntensity() -> Ansys.ACT.Automation.Mechanical.Results.LinearizedStressResults.LinearizedStressIntensity Creates a new LinearizedStressIntensity .. !! processed by numpydoc !! .. py:method:: AddMCFWaterfallDiagram() -> Ansys.ACT.Automation.Mechanical.Results.FrequencyResponseResults.MCFWaterfallDiagram Creates a new MCFWaterfallDiagram .. !! processed by numpydoc !! .. py:method:: AddMagneticCoenergy() -> Ansys.ACT.Automation.Mechanical.Results.MagneticCoenergy Creates a new MagneticCoenergy .. !! processed by numpydoc !! .. py:method:: AddMagneticDirectionalForces() -> Ansys.ACT.Automation.Mechanical.Results.ElectromagneticResults.MagneticDirectionalForces Creates a new MagneticDirectionalForces .. !! processed by numpydoc !! .. py:method:: AddMagneticError() -> Ansys.ACT.Automation.Mechanical.Results.ElectromagneticResults.MagneticError Creates a new MagneticError .. !! processed by numpydoc !! .. py:method:: AddMagneticFluxProbe() -> Ansys.ACT.Automation.Mechanical.Results.ProbeResults.MagneticFluxProbe Creates a new MagneticFluxProbe .. !! processed by numpydoc !! .. py:method:: AddMagneticPotential() -> Ansys.ACT.Automation.Mechanical.Results.MagneticPotential Creates a new MagneticPotential .. !! processed by numpydoc !! .. py:method:: AddMagneticTotalForces() -> Ansys.ACT.Automation.Mechanical.Results.ElectromagneticResults.MagneticTotalForces Creates a new MagneticTotalForces .. !! processed by numpydoc !! .. py:method:: AddMatrixCompressiveDamageVariable() -> Ansys.ACT.Automation.Mechanical.Results.DamageResults.MatrixCompressiveDamageVariable Creates a new MatrixCompressiveDamageVariable .. !! processed by numpydoc !! .. py:method:: AddMatrixCompressiveFailureCriterion() -> Ansys.ACT.Automation.Mechanical.Results.DamageResults.MatrixCompressiveFailureCriterion Creates a new MatrixCompressiveFailureCriterion .. !! processed by numpydoc !! .. py:method:: AddMatrixTensileDamageVariable() -> Ansys.ACT.Automation.Mechanical.Results.DamageResults.MatrixTensileDamageVariable Creates a new MatrixTensileDamageVariable .. !! processed by numpydoc !! .. py:method:: AddMatrixTensileFailureCriterion() -> Ansys.ACT.Automation.Mechanical.Results.DamageResults.MatrixTensileFailureCriterion Creates a new MatrixTensileFailureCriterion .. !! processed by numpydoc !! .. py:method:: AddMaximumFailureCriteria() -> Ansys.ACT.Automation.Mechanical.Results.DamageResults.MaximumFailureCriteria Creates a new MaximumFailureCriteria .. !! processed by numpydoc !! .. py:method:: AddMaximumPrincipalElasticStrain() -> Ansys.ACT.Automation.Mechanical.Results.StrainResults.MaximumPrincipalElasticStrain Creates a new MaximumPrincipalElasticStrain .. !! processed by numpydoc !! .. py:method:: AddMaximumPrincipalStress() -> Ansys.ACT.Automation.Mechanical.Results.StressResults.MaximumPrincipalStress Creates a new MaximumPrincipalStress .. !! processed by numpydoc !! .. py:method:: AddMaximumPrincipalThermalStrain() -> Ansys.ACT.Automation.Mechanical.Results.StrainResults.MaximumPrincipalThermalStrain Creates a new MaximumPrincipalThermalStrain .. !! processed by numpydoc !! .. py:method:: AddMaximumShearElasticStrain() -> Ansys.ACT.Automation.Mechanical.Results.StrainResults.MaximumShearElasticStrain Creates a new MaximumShearElasticStrain .. !! processed by numpydoc !! .. py:method:: AddMaximumShearStress() -> Ansys.ACT.Automation.Mechanical.Results.StressResults.MaximumShearStress Creates a new MaximumShearStress .. !! processed by numpydoc !! .. py:method:: AddMembraneStressEquivalent() -> Ansys.ACT.Automation.Mechanical.Results.StressResults.MembraneStressEquivalent Creates a new MembraneStressEquivalent .. !! processed by numpydoc !! .. py:method:: AddMembraneStressIntensity() -> Ansys.ACT.Automation.Mechanical.Results.StressResults.MembraneStressIntensity Creates a new MembraneStressIntensity .. !! processed by numpydoc !! .. py:method:: AddMiddlePrincipalElasticStrain() -> Ansys.ACT.Automation.Mechanical.Results.StrainResults.MiddlePrincipalElasticStrain Creates a new MiddlePrincipalElasticStrain .. !! processed by numpydoc !! .. py:method:: AddMiddlePrincipalStress() -> Ansys.ACT.Automation.Mechanical.Results.StressResults.MiddlePrincipalStress Creates a new MiddlePrincipalStress .. !! processed by numpydoc !! .. py:method:: AddMiddlePrincipalThermalStrain() -> Ansys.ACT.Automation.Mechanical.Results.StrainResults.MiddlePrincipalThermalStrain Creates a new MiddlePrincipalThermalStrain .. !! processed by numpydoc !! .. py:method:: AddMinimumPrincipalElasticStrain() -> Ansys.ACT.Automation.Mechanical.Results.StrainResults.MinimumPrincipalElasticStrain Creates a new MinimumPrincipalElasticStrain .. !! processed by numpydoc !! .. py:method:: AddMinimumPrincipalStress() -> Ansys.ACT.Automation.Mechanical.Results.StressResults.MinimumPrincipalStress Creates a new MinimumPrincipalStress .. !! processed by numpydoc !! .. py:method:: AddMomentReaction() -> Ansys.ACT.Automation.Mechanical.Results.ProbeResults.MomentReaction Creates a new MomentReaction .. !! processed by numpydoc !! .. py:method:: AddMomentReactionsForContactRegions(contactRegionObjIds: Iterable[int]) -> None AddMomentReactionsForContactRegions method. .. !! processed by numpydoc !! .. py:method:: AddMullinsDamageVariable() -> Ansys.ACT.Automation.Mechanical.Results.DamageResults.MullinsDamageVariable Creates a new MullinsDamageVariable .. !! processed by numpydoc !! .. py:method:: AddMullinsMaximumPreviousStrainEnergy() -> Ansys.ACT.Automation.Mechanical.Results.DamageResults.MullinsMaximumPreviousStrainEnergy Creates a new MullinsMaximumPreviousStrainEnergy .. !! processed by numpydoc !! .. py:method:: AddNewtonRaphsonResidualCharge() -> Ansys.ACT.Automation.Mechanical.Results.NewtonRaphsonResidualCharge Creates a new NewtonRaphsonResidualCharge .. !! processed by numpydoc !! .. py:method:: AddNewtonRaphsonResidualForce() -> Ansys.ACT.Automation.Mechanical.Results.NewtonRaphsonResidualForce Creates a new NewtonRaphsonResidualForce .. !! processed by numpydoc !! .. py:method:: AddNewtonRaphsonResidualHeat() -> Ansys.ACT.Automation.Mechanical.Results.NewtonRaphsonResidualHeat Creates a new NewtonRaphsonResidualHeat .. !! processed by numpydoc !! .. py:method:: AddNewtonRaphsonResidualMoment() -> Ansys.ACT.Automation.Mechanical.Results.NewtonRaphsonResidualMoment Creates a new NewtonRaphsonResidualMoment .. !! processed by numpydoc !! .. py:method:: AddNodalEulerXYAngle() -> Ansys.ACT.Automation.Mechanical.Results.CoordinateSystemsResults.NodalEulerXYAngle Creates a new NodalEulerXYAngle .. !! processed by numpydoc !! .. py:method:: AddNodalEulerXZAngle() -> Ansys.ACT.Automation.Mechanical.Results.CoordinateSystemsResults.NodalEulerXZAngle Creates a new NodalEulerXZAngle .. !! processed by numpydoc !! .. py:method:: AddNodalEulerYZAngle() -> Ansys.ACT.Automation.Mechanical.Results.CoordinateSystemsResults.NodalEulerYZAngle Creates a new NodalEulerYZAngle .. !! processed by numpydoc !! .. py:method:: AddNodalTriads() -> Ansys.ACT.Automation.Mechanical.Results.CoordinateSystemsResults.NodalTriads Creates a new NodalTriads .. !! processed by numpydoc !! .. py:method:: AddNormalElasticStrain() -> Ansys.ACT.Automation.Mechanical.Results.StrainResults.NormalElasticStrain Creates a new NormalElasticStrain .. !! processed by numpydoc !! .. py:method:: AddNormalGasketPressure() -> Ansys.ACT.Automation.Mechanical.Results.GasketResults.NormalGasketPressure Creates a new NormalGasketPressure .. !! processed by numpydoc !! .. py:method:: AddNormalGasketTotalClosure() -> Ansys.ACT.Automation.Mechanical.Results.GasketResults.NormalGasketTotalClosure Creates a new NormalGasketTotalClosure .. !! processed by numpydoc !! .. py:method:: AddNormalStress() -> Ansys.ACT.Automation.Mechanical.Results.StressResults.NormalStress Creates a new NormalStress .. !! processed by numpydoc !! .. py:method:: AddPosition() -> Ansys.ACT.Automation.Mechanical.Results.ProbeResults.Position Creates a new Position .. !! processed by numpydoc !! .. py:method:: AddPrimaryCriterion() -> Ansys.ACT.Automation.Mechanical.PrimaryCriterion Creates a new PrimaryCriterion .. !! processed by numpydoc !! .. py:method:: AddPythonCodeEventBased() -> Ansys.ACT.Automation.Mechanical.PythonCodeEventBased Creates a new PythonCodeEventBased .. !! processed by numpydoc !! .. py:method:: AddPythonResult() -> Ansys.ACT.Automation.Mechanical.Results.ScriptableResults.PythonResult Creates a new PythonResult .. !! processed by numpydoc !! .. py:method:: AddQualityFactor() -> Ansys.ACT.Automation.Mechanical.Results.ProbeResults.QualityFactor Creates a new QualityFactor .. !! processed by numpydoc !! .. py:method:: AddRadiationProbe() -> Ansys.ACT.Automation.Mechanical.Results.ProbeResults.RadiationProbe Creates a new RadiationProbe .. !! processed by numpydoc !! .. py:method:: AddReactionProbe() -> Ansys.ACT.Automation.Mechanical.Results.ProbeResults.ReactionProbe Creates a new ReactionProbe .. !! processed by numpydoc !! .. py:method:: AddReactionsForContactRegions(contactRegionObjIds: Iterable[int]) -> None AddReactionsForContactRegions method. .. !! processed by numpydoc !! .. py:method:: AddResponsePSD() -> Ansys.ACT.Automation.Mechanical.Results.ProbeResults.ResponsePSD Creates a new ResponsePSD .. !! processed by numpydoc !! .. py:method:: AddResponsePSDTool() -> Ansys.ACT.Automation.Mechanical.ResponsePSDTool Creates a new ResponsePSDTool .. !! processed by numpydoc !! .. py:method:: AddResultMesh() -> Ansys.ACT.Automation.Mechanical.ResultMesh Creates a new ResultMesh .. !! processed by numpydoc !! .. py:method:: AddRotationProbe() -> Ansys.ACT.Automation.Mechanical.Results.ProbeResults.RotationProbe Creates a new RotationProbe .. !! processed by numpydoc !! .. py:method:: AddShapeFinder() -> Ansys.ACT.Automation.Mechanical.Results.ShapeFinder Creates a new ShapeFinder .. !! processed by numpydoc !! .. py:method:: AddShapeFinderElemental() -> Ansys.ACT.Automation.Mechanical.Results.ShapeFinderElemental Creates a new ShapeFinderElemental .. !! processed by numpydoc !! .. py:method:: AddShearDamageVariable() -> Ansys.ACT.Automation.Mechanical.Results.DamageResults.ShearDamageVariable Creates a new ShearDamageVariable .. !! processed by numpydoc !! .. py:method:: AddShearElasticStrain() -> Ansys.ACT.Automation.Mechanical.Results.StrainResults.ShearElasticStrain Creates a new ShearElasticStrain .. !! processed by numpydoc !! .. py:method:: AddShearGasketPressure() -> Ansys.ACT.Automation.Mechanical.Results.GasketResults.ShearGasketPressure Creates a new ShearGasketPressure .. !! processed by numpydoc !! .. py:method:: AddShearGasketTotalClosure() -> Ansys.ACT.Automation.Mechanical.Results.GasketResults.ShearGasketTotalClosure Creates a new ShearGasketTotalClosure .. !! processed by numpydoc !! .. py:method:: AddShearMomentDiagramMSUM() -> Ansys.ACT.Automation.Mechanical.Results.BeamResults.TotalShearMomentDiagram Creates a new TotalShearMomentDiagram .. !! processed by numpydoc !! .. py:method:: AddShearMomentDiagramMY() -> Ansys.ACT.Automation.Mechanical.Results.BeamResults.DirectionalShearMomentDiagram Creates a new DirectionalShearMomentDiagram .. !! processed by numpydoc !! .. py:method:: AddShearMomentDiagramMZ() -> Ansys.ACT.Automation.Mechanical.Results.BeamResults.DirectionalShearMomentDiagram Creates a new DirectionalShearMomentDiagram .. !! processed by numpydoc !! .. py:method:: AddShearMomentDiagramUSUM() -> Ansys.ACT.Automation.Mechanical.Results.BeamResults.TotalShearMomentDiagram Creates a new TotalShearMomentDiagram .. !! processed by numpydoc !! .. py:method:: AddShearMomentDiagramUY() -> Ansys.ACT.Automation.Mechanical.Results.BeamResults.DirectionalShearMomentDiagram Creates a new DirectionalShearMomentDiagram .. !! processed by numpydoc !! .. py:method:: AddShearMomentDiagramUZ() -> Ansys.ACT.Automation.Mechanical.Results.BeamResults.DirectionalShearMomentDiagram Creates a new DirectionalShearMomentDiagram .. !! processed by numpydoc !! .. py:method:: AddShearMomentDiagramVSUM() -> Ansys.ACT.Automation.Mechanical.Results.BeamResults.TotalShearMomentDiagram Creates a new TotalShearMomentDiagram .. !! processed by numpydoc !! .. py:method:: AddShearMomentDiagramVY() -> Ansys.ACT.Automation.Mechanical.Results.BeamResults.DirectionalShearMomentDiagram Creates a new DirectionalShearMomentDiagram .. !! processed by numpydoc !! .. py:method:: AddShearMomentDiagramVZ() -> Ansys.ACT.Automation.Mechanical.Results.BeamResults.DirectionalShearMomentDiagram Creates a new DirectionalShearMomentDiagram .. !! processed by numpydoc !! .. py:method:: AddShearStress() -> Ansys.ACT.Automation.Mechanical.Results.StressResults.ShearStress Creates a new ShearStress .. !! processed by numpydoc !! .. py:method:: AddShellBendingStress() -> Ansys.ACT.Automation.Mechanical.Results.StressResults.ShellBendingStress Creates a new ShellBendingStress .. !! processed by numpydoc !! .. py:method:: AddShellBottomPeakStress() -> Ansys.ACT.Automation.Mechanical.Results.StressResults.ShellBottomPeakStress Creates a new ShellBottomPeakStress .. !! processed by numpydoc !! .. py:method:: AddShellMembraneStress() -> Ansys.ACT.Automation.Mechanical.Results.StressResults.ShellMembraneStress Creates a new ShellMembraneStress .. !! processed by numpydoc !! .. py:method:: AddShellTopPeakStress() -> Ansys.ACT.Automation.Mechanical.Results.StressResults.ShellTopPeakStress Creates a new ShellTopPeakStress .. !! processed by numpydoc !! .. py:method:: AddSpringProbe() -> Ansys.ACT.Automation.Mechanical.Results.ProbeResults.SpringProbe Creates a new SpringProbe .. !! processed by numpydoc !! .. py:method:: AddStabilizationEnergy() -> Ansys.ACT.Automation.Mechanical.Results.EnergyResults.StabilizationEnergy Creates a new StabilizationEnergy .. !! processed by numpydoc !! .. py:method:: AddStrainProbe() -> Ansys.ACT.Automation.Mechanical.Results.ProbeResults.StrainProbe Creates a new StrainProbe .. !! processed by numpydoc !! .. py:method:: AddStressFrequencyResponse() -> Ansys.ACT.Automation.Mechanical.Results.FrequencyResponseResults.StressFrequencyResponse Creates a new StressFrequencyResponse .. !! processed by numpydoc !! .. py:method:: AddStressIntensity() -> Ansys.ACT.Automation.Mechanical.Results.StressResults.StressIntensity Creates a new StressIntensity .. !! processed by numpydoc !! .. py:method:: AddStressPhaseResponse() -> Ansys.ACT.Automation.Mechanical.Results.PhaseResponseResults.StressPhaseResponse Creates a new StressPhaseResponse .. !! processed by numpydoc !! .. py:method:: AddStressProbe() -> Ansys.ACT.Automation.Mechanical.Results.ProbeResults.StressProbe Creates a new StressProbe .. !! processed by numpydoc !! .. py:method:: AddStressTool() -> Ansys.ACT.Automation.Mechanical.Results.StressToolResults.StressTool Creates a new StressTool .. !! processed by numpydoc !! .. py:method:: AddStructuralError() -> Ansys.ACT.Automation.Mechanical.Results.StressResults.StructuralError Creates a new StructuralError .. !! processed by numpydoc !! .. py:method:: AddStructuralStrainEnergy() -> Ansys.ACT.Automation.Mechanical.Results.EnergyResults.StructuralStrainEnergy Creates a new StructuralStrainEnergy .. !! processed by numpydoc !! .. py:method:: AddTemperature() -> Ansys.ACT.Automation.Mechanical.Results.ThermalResults.TemperatureResult Creates a new TemperatureResult .. !! processed by numpydoc !! .. py:method:: AddTemperatureProbe() -> Ansys.ACT.Automation.Mechanical.Results.ProbeResults.TemperatureProbe Creates a new TemperatureProbe .. !! processed by numpydoc !! .. py:method:: AddThermalError() -> Ansys.ACT.Automation.Mechanical.Results.ThermalResults.ThermalError Creates a new ThermalError .. !! processed by numpydoc !! .. py:method:: AddThermalStrain() -> Ansys.ACT.Automation.Mechanical.Results.StrainResults.DirectionalThermalStrain Creates a new DirectionalThermalStrain .. !! processed by numpydoc !! .. py:method:: AddThermalStrainEnergy() -> Ansys.ACT.Automation.Mechanical.Results.EnergyResults.ThermalStrainEnergy Creates a new ThermalStrainEnergy .. !! processed by numpydoc !! .. py:method:: AddTopologyDensity() -> Ansys.ACT.Automation.Mechanical.Results.TopologyDensity Creates a new TopologyDensity .. !! processed by numpydoc !! .. py:method:: AddTopologyElementalDensity() -> Ansys.ACT.Automation.Mechanical.Results.TopologyElementalDensity Creates a new TopologyElementalDensity .. !! processed by numpydoc !! .. py:method:: AddTorqueProbe() -> Ansys.ACT.Automation.Mechanical.Results.ProbeResults.TorqueProbe Creates a new TorqueProbe .. !! processed by numpydoc !! .. py:method:: AddTotalAcceleration() -> Ansys.ACT.Automation.Mechanical.Results.DeformationResults.TotalAcceleration Creates a new TotalAcceleration .. !! processed by numpydoc !! .. py:method:: AddTotalAxialForce() -> Ansys.ACT.Automation.Mechanical.Results.BeamResults.TotalAxialForce Creates a new TotalAxialForce .. !! processed by numpydoc !! .. py:method:: AddTotalBendingMoment() -> Ansys.ACT.Automation.Mechanical.Results.BeamResults.TotalBendingMoment Creates a new TotalBendingMoment .. !! processed by numpydoc !! .. py:method:: AddTotalCurrentDensity() -> Ansys.ACT.Automation.Mechanical.Results.ElectricResults.TotalCurrentDensity Creates a new TotalCurrentDensity .. !! processed by numpydoc !! .. py:method:: AddTotalDeformation() -> Ansys.ACT.Automation.Mechanical.Results.DeformationResults.TotalDeformation Creates a new TotalDeformation .. !! processed by numpydoc !! .. py:method:: AddTotalElectricFieldIntensity() -> Ansys.ACT.Automation.Mechanical.Results.ElectricResults.TotalElectricFieldIntensity Creates a new TotalElectricFieldIntensity .. !! processed by numpydoc !! .. py:method:: AddTotalElectricFluxDensity() -> Ansys.ACT.Automation.Mechanical.Results.ElectricResults.TotalElectricFluxDensity Creates a new TotalElectricFluxDensity .. !! processed by numpydoc !! .. py:method:: AddTotalElectrostaticForce() -> Ansys.ACT.Automation.Mechanical.Results.ElectricResults.TotalElectrostaticForce Creates a new TotalElectrostaticForce .. !! processed by numpydoc !! .. py:method:: AddTotalHeatFlux() -> Ansys.ACT.Automation.Mechanical.Results.ThermalResults.TotalHeatFlux Creates a new TotalHeatFlux .. !! processed by numpydoc !! .. py:method:: AddTotalMagneticFieldIntensity() -> Ansys.ACT.Automation.Mechanical.Results.ElectromagneticResults.TotalMagneticFieldIntensity Creates a new TotalMagneticFieldIntensity .. !! processed by numpydoc !! .. py:method:: AddTotalMagneticFluxDensity() -> Ansys.ACT.Automation.Mechanical.Results.ElectromagneticResults.TotalMagneticFluxDensity Creates a new TotalMagneticFluxDensity .. !! processed by numpydoc !! .. py:method:: AddTotalShearForce() -> Ansys.ACT.Automation.Mechanical.Results.BeamResults.TotalShearForce Creates a new TotalShearForce .. !! processed by numpydoc !! .. py:method:: AddTotalTorsionalMoment() -> Ansys.ACT.Automation.Mechanical.Results.BeamResults.TotalTorsionalMoment Creates a new TotalTorsionalMoment .. !! processed by numpydoc !! .. py:method:: AddTotalVelocity() -> Ansys.ACT.Automation.Mechanical.Results.DeformationResults.TotalVelocity Creates a new TotalVelocity .. !! processed by numpydoc !! .. py:method:: AddUserDefinedResult() -> Ansys.ACT.Automation.Mechanical.Results.UserDefinedResult Creates a new UserDefinedResult .. !! processed by numpydoc !! .. py:method:: AddVariableGraph() -> Ansys.ACT.Automation.Mechanical.Results.VariableGraph Creates a new VariableGraph .. !! processed by numpydoc !! .. py:method:: AddVectorAxialForce() -> Ansys.ACT.Automation.Mechanical.Results.BeamResults.VectorAxialForce Creates a new VectorAxialForce .. !! processed by numpydoc !! .. py:method:: AddVectorBendingMoment() -> Ansys.ACT.Automation.Mechanical.Results.BeamResults.VectorBendingMoment Creates a new VectorBendingMoment .. !! processed by numpydoc !! .. py:method:: AddVectorDeformation() -> Ansys.ACT.Automation.Mechanical.Results.DeformationResults.VectorDeformation Creates a new VectorDeformation .. !! processed by numpydoc !! .. py:method:: AddVectorHeatFlux() -> Ansys.ACT.Automation.Mechanical.Results.ThermalResults.VectorHeatFlux Creates a new VectorHeatFlux .. !! processed by numpydoc !! .. py:method:: AddVectorPrincipalElasticStrain() -> Ansys.ACT.Automation.Mechanical.Results.StrainResults.VectorPrincipalElasticStrain Creates a new VectorPrincipalElasticStrain .. !! processed by numpydoc !! .. py:method:: AddVectorPrincipalStress() -> Ansys.ACT.Automation.Mechanical.Results.StressResults.VectorPrincipalStress Creates a new VectorPrincipalStress .. !! processed by numpydoc !! .. py:method:: AddVectorShearForce() -> Ansys.ACT.Automation.Mechanical.Results.BeamResults.VectorShearForce Creates a new VectorShearForce .. !! processed by numpydoc !! .. py:method:: AddVectorTorsionalMoment() -> Ansys.ACT.Automation.Mechanical.Results.BeamResults.VectorTorsionalMoment Creates a new VectorTorsionalMoment .. !! processed by numpydoc !! .. py:method:: AddVelocityFrequencyResponse() -> Ansys.ACT.Automation.Mechanical.Results.FrequencyResponseResults.VelocityFrequencyResponse Creates a new VelocityFrequencyResponse .. !! processed by numpydoc !! .. py:method:: AddVelocityPhaseResponse() -> Ansys.ACT.Automation.Mechanical.Results.PhaseResponseResults.VelocityPhaseResponse Creates a new VelocityPhaseResponse .. !! processed by numpydoc !! .. py:method:: AddVelocityProbe() -> Ansys.ACT.Automation.Mechanical.Results.ProbeResults.VelocityProbe Creates a new VelocityProbe .. !! processed by numpydoc !! .. py:method:: AddVelocityWaterfallDiagram() -> Ansys.ACT.Automation.Mechanical.Results.FrequencyResponseResults.VelocityWaterfallDiagram Creates a new VelocityWaterfallDiagram .. !! processed by numpydoc !! .. py:method:: AddVoltageFrequencyResponse() -> Ansys.ACT.Automation.Mechanical.Results.FrequencyResponseResults.VoltageFrequencyResponse Creates a new VoltageFrequencyResponse .. !! processed by numpydoc !! .. py:method:: AddVoltageProbe() -> Ansys.ACT.Automation.Mechanical.Results.ProbeResults.ElectricVoltageProbe Creates a new ElectricVoltageProbe .. !! processed by numpydoc !! .. py:method:: AddVolume() -> Ansys.ACT.Automation.Mechanical.Results.Volume Creates a new Volume .. !! processed by numpydoc !! .. py:method:: AddVolumeProbe() -> Ansys.ACT.Automation.Mechanical.Results.ProbeResults.VolumeProbe Creates a new VolumeProbe .. !! processed by numpydoc !! .. py:method:: ClearGeneratedData() -> None Run the ClearGeneratedData action. .. !! processed by numpydoc !! .. py:method:: ClearRemoteStorageData() -> None ClearRemoteStorageData method. .. !! processed by numpydoc !! .. py:method:: CopyTo(other: Ansys.ACT.Automation.Mechanical.DataModelObject) -> None Copies all visible properties from this object to another. .. !! processed by numpydoc !! .. py:method:: CreateParameter(propName: str) -> Ansys.ACT.Interfaces.Mechanical.IParameter Creates a new parameter for a Property. .. !! processed by numpydoc !! .. py:method:: CreateResultsAtAllSets(resId: int) -> List[Ansys.Mechanical.DataModel.Interfaces.IDataModelObject] CreateResultsAtAllSets method. .. !! processed by numpydoc !! .. py:method:: DeleteRow(index: int) -> None DeleteRow method. .. !! processed by numpydoc !! .. py:method:: DisconnectRemoteJob() -> None DisconnectRemoteJob method. .. !! processed by numpydoc !! .. py:method:: Duplicate() -> Ansys.Mechanical.DataModel.Interfaces.IDataModelObject Creates a copy of the current DataModelObject. .. !! processed by numpydoc !! .. py:method:: EvaluateAllContactTrackers() -> None EvaluateAllContactTrackers method. .. !! processed by numpydoc !! .. py:method:: EvaluateAllResults() -> None Run the EvaluateAllResults action. .. !! processed by numpydoc !! .. py:method:: EvaluateContactTracker() -> None EvaluateContactTracker method. .. !! processed by numpydoc !! .. py:method:: ExecutePostCommands() -> None Run Execute Post Commands for all post command objects. .. !! processed by numpydoc !! .. py:method:: ExportSubstructure(exportFileName: str, exportFormat: Ansys.Mechanical.DataModel.MechanicalEnums.Substructure.ExportFormat, exportSettings: Ansys.ACT.Automation.Mechanical.Substructure.ExportSettings) -> None Export Substructure to cpa file. .. !! processed by numpydoc !! .. py:method:: ExtractSolutionStatistics() -> None ExtractSolutionStatistics method. .. !! processed by numpydoc !! .. py:method:: FetchRemoteResults() -> None FetchRemoteResults method. .. !! processed by numpydoc !! .. py:method:: FormatValue(value: float, unitType: int) -> str FormatValue method. .. !! processed by numpydoc !! .. py:method:: GenerateAdaptedMesh() -> None GenerateAdaptedMesh method. .. !! processed by numpydoc !! .. py:method:: GetChildren(recurses: bool, children: List[ChildrenType]) -> List[ChildrenType] Gets the list of children, filtered by type. .. !! processed by numpydoc !! .. py:method:: GetParameter(propName: str) -> Ansys.ACT.Interfaces.Mechanical.IParameter Gets the parameter corresponding to the given property. .. !! processed by numpydoc !! .. py:method:: GetResults() -> None Gets the Results from the server. .. !! processed by numpydoc !! .. py:method:: GroupAllSimilarChildren() -> None Run the GroupAllSimilarChildren action. .. !! processed by numpydoc !! .. py:method:: GroupSimilarObjects() -> Ansys.ACT.Automation.Mechanical.TreeGroupingFolder Run the GroupSimilarObjects action. .. !! processed by numpydoc !! .. py:method:: IsResultFileChanged() -> bool Checks if the referenced result file has been changed. .. !! processed by numpydoc !! .. py:method:: IsResultFileSameAsLoaded(filepath: str) -> bool Checks if the given result file is same the loaded result file .. !! processed by numpydoc !! .. py:method:: OpenSolverFilesDirectory() -> None Run the OpenSolverFilesDirectory action. .. !! processed by numpydoc !! .. py:method:: PropertyByAPIName(name: str) -> Ansys.ACT.Automation.Mechanical.Property .. code-block:: text 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. .. !! processed by numpydoc !! .. py:method:: PropertyByName(name: str) -> Ansys.ACT.Automation.Mechanical.Property Get a property by its unique name. .. !! processed by numpydoc !! .. py:method:: ReadAnsysResultFile() -> None Run the Ansys ReadResults action. .. !! processed by numpydoc !! .. py:method:: ReadGivenAnsysResultFile(resultFilePath: str, unitSystemID: Ansys.Mechanical.DataModel.Enums.UnitSystemIDType) -> None Run the given Ansys ReadResults action./// .. !! processed by numpydoc !! .. py:method:: ReadGivenAnsysResultFileByReference(resultFilePath: str, unitSystemID: Ansys.Mechanical.DataModel.Enums.UnitSystemIDType) -> None Run the given Ansys ReadResults by reference action./// .. !! processed by numpydoc !! .. py:method:: ReconnectRemoteJob() -> None ReconnectRemoteJob method. .. !! processed by numpydoc !! .. py:method:: RelinkResultFile(filepath: str) -> None Relink the result file. This action allows repairing the result file referencing without altering the generated result data. .. !! processed by numpydoc !! .. py:method:: ReloadResultFile() -> None Reload the result file. For results-only systems, this action reloads the result mesh data and resets all result scopings. .. !! processed by numpydoc !! .. py:method:: RemoveParameter(propName: str) -> None Removes the parameter from the parameter set corresponding to the given property. .. !! processed by numpydoc !! .. py:method:: Solve(wait: bool, config: str) -> None Run the Solve action. .. !! processed by numpydoc !! .. py:method:: ValueForResultTracking(index: int, key: str) -> str ValueForResultTracking method. .. !! processed by numpydoc !! .. py:method:: ValueForSolutionTracking(index: int, key: str) -> str ValueForSolutionTracking method. .. !! processed by numpydoc !! .. vale on