.. vale off :class:`Analysis` ================= .. py:class:: ansys.mechanical.stubs.v242.Ansys.ACT.Automation.Mechanical.Analysis Bases: :py:obj:`object` Defines a Analysis. .. !! processed by numpydoc !! .. py:currentmodule:: Analysis Overview -------- .. tab-set:: .. tab-item:: Methods .. list-table:: :header-rows: 0 :widths: auto * - :py:attr:`~AddTemperature` - Creates a new child Temperature. * - :py:attr:`~AddThermalCondition` - Creates a new child ThermalCondition. * - :py:attr:`~AddPressure` - Creates a new child Pressure. * - :py:attr:`~Solve` - Run the Solve action. * - :py:attr:`~Solve` - Run the Solve action. * - :py:attr:`~ClearGeneratedData` - Run the ClearGeneratedData action. * - :py:attr:`~OpenSolverFilesDirectory` - Run the OpenSolverFilesDirectory action. * - :py:attr:`~FilterBasedOnEnvironment` - Enables interface filtering that only displays model-level items applicable to * - :py:attr:`~AddInitialVelocity` - Creates a new child Initial Velocity. * - :py:attr:`~AddSystemCouplingRegion` - Creates a new SystemCouplingRegion * - :py:attr:`~AddThermalCondition` - Creates a new child ThermalCondition. * - :py:attr:`~AddBoltPretension` - Creates a new BoltPretension * - :py:attr:`~AddOptimizationRegion` - Creates a new OptimizationRegion * - :py:attr:`~AddAcousticTemperature` - Creates a new child ThermalCondition. * - :py:attr:`~AddSourceConductor` - Creates a new child SourceConductor. * - :py:attr:`~WriteSystemCouplingFiles` - Writes the system coupling files. Usage WriteSystemCouplingFiles("C:\Desktop\temp\scp1.scp"); * - :py:attr:`~CreateAutomaticFarFieldRadiationSurfaces` - Run the CreateAutomaticEquivalentSourceSurfaces action. * - :py:attr:`~CreateAutomaticFSI` - Run the CreateAutomaticFSI action. * - :py:attr:`~CreateAutomaticFSIandFarFieldRadiationSurfaces` - Run the CreateAutomaticFSIandEquivalentSourceSurfaces action. * - :py:attr:`~SelectBodiesWithoutPhysicsRegion` - Run the SelectBodiesWithoutPhysicsRegion action to select the bodies that don't belong to a Physics Region. * - :py:attr:`~SelectBodiesWithMultiplePhysicsRegion` - Run the SelectBodiesWithMultiplePhysicsRegion action to select the bodies that belong to more than one Physics Region. * - :py:attr:`~AddImportedLoadMAPDLResultsFile` - Creates a new Import Load for MAPDL Results File. * - :py:attr:`~AddImportedLoadFluidsResultsFile` - Creates a new Import Load for Fluids Results File. * - :py:attr:`~AddImportedLoadExternalData` - Creates a new Imported Load (External Data). * - :py:attr:`~AddImportedRemoteLoadsGroup` - Creates a new Import Remote Load Group. * - :py:attr:`~TransferDataFrom` - Transfer Data From action. * - :py:attr:`~UnlinkDataFrom` - Unlink Data From action. * - :py:attr:`~ImportLoad` - Import Load action. * - :py:attr:`~ExportNastranFile` - Export Nastran File. * - :py:attr:`~Duplicate` - Duplicate method. * - :py:attr:`~AddAcceleration` - Creates a new Acceleration * - :py:attr:`~AddAcousticAbsorptionElement` - Creates a new AcousticAbsorptionElement * - :py:attr:`~AddAcousticAbsorptionSurface` - Creates a new AcousticAbsorptionSurface * - :py:attr:`~AddAcousticDiffuseSoundField` - Creates a new AcousticDiffuseSoundField * - :py:attr:`~AddAcousticFarFieldRadationSurface` - Creates a new AcousticFarFieldRadationSurface * - :py:attr:`~AddAcousticFreeSurface` - Creates a new AcousticFreeSurface * - :py:attr:`~AddAcousticImpedanceBoundary` - Creates a new AcousticImpedanceBoundary * - :py:attr:`~AddAcousticImpedanceSheet` - Creates a new AcousticImpedanceSheet * - :py:attr:`~AddAcousticIncidentWaveSource` - Creates a new AcousticIncidentWaveSource * - :py:attr:`~AddAcousticLowReducedFrequency` - Creates a new AcousticLowReducedFrequency * - :py:attr:`~AddAcousticMassSource` - Creates a new AcousticMassSource * - :py:attr:`~AddAcousticMassSourceRate` - Creates a new AcousticMassSourceRate * - :py:attr:`~AddAcousticPort` - Creates a new AcousticPort * - :py:attr:`~AddAcousticPortInDuct` - Creates a new AcousticPortInDuct * - :py:attr:`~AddAcousticPressure` - Creates a new AcousticPressure * - :py:attr:`~AddAcousticRadiationBoundary` - Creates a new AcousticRadiationBoundary * - :py:attr:`~AddAcousticRigidWall` - Creates a new AcousticRigidWall * - :py:attr:`~AddAcousticStaticPressure` - Creates a new AcousticStaticPressure * - :py:attr:`~AddAcousticSurfaceAcceleration` - Creates a new AcousticSurfaceAcceleration * - :py:attr:`~AddAcousticSurfaceVelocity` - Creates a new AcousticSurfaceVelocity * - :py:attr:`~AddAcousticSymmetryPlane` - Creates a new AcousticSymmetryPlane * - :py:attr:`~AddAcousticThermoViscousBLIBoundary` - Creates a new AcousticThermoViscousBLIBoundary * - :py:attr:`~AddAcousticTransferAdmittanceMatrix` - Creates a new AcousticTransferAdmittanceMatrix * - :py:attr:`~AddAMOverhangConstraint` - Creates a new AMOverhangConstraint * - :py:attr:`~AddBearingLoad` - Creates a new BearingLoad * - :py:attr:`~AddBodyControl` - Creates a new BodyControl * - :py:attr:`~AddCenterOfGravityConstraint` - Creates a new CenterOfGravityConstraint * - :py:attr:`~AddCommandSnippet` - Creates a new CommandSnippet * - :py:attr:`~AddComplexityIndexConstraint` - Creates a new ComplexityIndexConstraint * - :py:attr:`~AddComplianceConstraint` - Creates a new ComplianceConstraint * - :py:attr:`~AddCompressionOnlySupport` - Creates a new CompressionOnlySupport * - :py:attr:`~AddConstraintEquation` - Creates a new ConstraintEquation * - :py:attr:`~AddContactStepControl` - Creates a new ContactStepControl * - :py:attr:`~AddConvection` - Creates a new Convection * - :py:attr:`~AddCoupling` - Creates a new Coupling * - :py:attr:`~AddVoltageCoupling` - Creates a new Coupling * - :py:attr:`~AddCriterionConstraint` - Creates a new CriterionConstraint * - :py:attr:`~AddCurrent` - Creates a new Current * - :py:attr:`~AddCyclicManufacturingConstraint` - Creates a new CyclicManufacturingConstraint * - :py:attr:`~AddCylindricalSupport` - Creates a new CylindricalSupport * - :py:attr:`~AddDetonationPoint` - Creates a new DetonationPoint * - :py:attr:`~AddDisplacement` - Creates a new Displacement * - :py:attr:`~AddDisplacementConstraint` - Creates a new DisplacementConstraint * - :py:attr:`~AddDynamicComplianceConstraint` - Creates a new DynamicComplianceConstraint * - :py:attr:`~AddEarthGravity` - Creates a new EarthGravity * - :py:attr:`~AddElasticSupport` - Creates a new ElasticSupport * - :py:attr:`~AddElectricCharge` - Creates a new ElectricCharge * - :py:attr:`~AddElementBirthAndDeath` - Creates a new ElementBirthAndDeath * - :py:attr:`~AddEMTransducer` - Creates a new EMTransducer * - :py:attr:`~AddExtrusionManufacturingConstraint` - Creates a new ExtrusionManufacturingConstraint * - :py:attr:`~AddFixedRotation` - Creates a new FixedRotation * - :py:attr:`~AddFixedSupport` - Creates a new FixedSupport * - :py:attr:`~AddFluidPenetrationPressure` - Creates a new Fluid Penetration Pressure object in Mechanical. This load object is used to simulate surrounding fluid or air penetrating into the contact interface. * - :py:attr:`~AddFluidSolidInterface` - Creates a new FluidSolidInterface * - :py:attr:`~AddForce` - Creates a new Force * - :py:attr:`~AddFrictionlessSupport` - Creates a new FrictionlessSupport * - :py:attr:`~AddGeneralizedPlaneStrain` - Creates a new GeneralizedPlaneStrain * - :py:attr:`~AddGeometryBasedAdaptivity` - Creates a new GeometryBasedAdaptivity * - :py:attr:`~AddGlobalVonMisesStressConstraint` - Creates a new GlobalVonMisesStressConstraint * - :py:attr:`~AddHeatFlow` - Creates a new HeatFlow * - :py:attr:`~AddHeatFlux` - Creates a new HeatFlux * - :py:attr:`~AddHousingConstraint` - Creates a new HousingConstraint * - :py:attr:`~AddHydrostaticPressure` - Creates a new HydrostaticPressure * - :py:attr:`~AddImpedanceBoundary` - Creates a new ImpedanceBoundary * - :py:attr:`~AddImportedCFDPressure` - Creates a new ImportedCFDPressure * - :py:attr:`~AddInternalHeatGeneration` - Creates a new InternalHeatGeneration * - :py:attr:`~AddJointLoad` - Creates a new JointLoad * - :py:attr:`~AddLimitBoundary` - Creates a new LimitBoundary * - :py:attr:`~AddLinePressure` - Creates a new LinePressure * - :py:attr:`~AddLocalVonMisesStressConstraint` - Creates a new LocalVonMisesStressConstraint * - :py:attr:`~AddMagneticFluxParallel` - Creates a new MagneticFluxParallel * - :py:attr:`~AddMassConstraint` - Creates a new MassConstraint * - :py:attr:`~AddMassFlowRate` - Creates a new MassFlowRate * - :py:attr:`~AddMemberSizeManufacturingConstraint` - Creates a new MemberSizeManufacturingConstraint * - :py:attr:`~AddMoment` - Creates a new Moment * - :py:attr:`~AddMomentOfInertiaConstraint` - Creates a new MomentOfInertiaConstraint * - :py:attr:`~AddMorphingRegion` - Creates a new MorphingRegion * - :py:attr:`~AddNaturalFrequencyConstraint` - Creates a new NaturalFrequencyConstraint * - :py:attr:`~AddNodalDisplacement` - Creates a new NodalDisplacement * - :py:attr:`~AddNodalForce` - Creates a new NodalForce * - :py:attr:`~AddNodalOrientation` - Creates a new NodalOrientation * - :py:attr:`~AddNodalPressure` - Creates a new NodalPressure * - :py:attr:`~AddNodalRotation` - Creates a new NodalRotation * - :py:attr:`~AddNonlinearAdaptiveRegion` - Creates a new NonlinearAdaptiveRegion * - :py:attr:`~AddObjective` - Creates a new Objective * - :py:attr:`~AddPatternRepetitionConstraint` - Creates a new PatternRepetitionConstraint * - :py:attr:`~AddPerfectlyInsulated` - Creates a new PerfectlyInsulated * - :py:attr:`~AddPhysicsRegion` - Creates a new PhysicsRegion * - :py:attr:`~AddPipeIdealization` - Creates a new child PipeIdealization. * - :py:attr:`~AddPipePressure` - Creates a new PipePressure * - :py:attr:`~AddPipeTemperature` - Creates a new PipeTemperature * - :py:attr:`~AddPlasticHeating` - Creates a new PlasticHeating * - :py:attr:`~AddPSDAcceleration` - Creates a new PSDAcceleration * - :py:attr:`~AddPSDDisplacement` - Creates a new PSDDisplacement * - :py:attr:`~AddPSDGAcceleration` - Creates a new PSDGAcceleration * - :py:attr:`~AddPSDVelocity` - Creates a new PSDVelocity * - :py:attr:`~AddPullOutDirectionManufacturingConstraint` - Creates a new PullOutDirectionManufacturingConstraint * - :py:attr:`~AddPythonCodeEventBased` - Creates a new PythonCodeEventBased * - :py:attr:`~AddRadiation` - Creates a new Radiation * - :py:attr:`~AddReactionForceConstraint` - Creates a new ReactionForceConstraint * - :py:attr:`~AddRemoteDisplacement` - Creates a new RemoteDisplacement * - :py:attr:`~AddRemoteForce` - Creates a new RemoteForce * - :py:attr:`~AddRotatingForce` - Creates a new RotatingForce * - :py:attr:`~AddRotationalAcceleration` - Creates a new RotationalAcceleration * - :py:attr:`~AddRotationalVelocity` - Creates a new RotationalVelocity * - :py:attr:`~AddRSAcceleration` - Creates a new RSAcceleration * - :py:attr:`~AddRSDisplacement` - Creates a new RSDisplacement * - :py:attr:`~AddRSVelocity` - Creates a new RSVelocity * - :py:attr:`~AddSimplySupported` - Creates a new SimplySupported * - :py:attr:`~AddSubstructureGenerationCondensedPart` - Creates a new SubstructureGenerationCondensedPart * - :py:attr:`~AddSurfaceChargeDensity` - Creates a new SurfaceChargeDensity * - :py:attr:`~AddSymmetryManufacturingConstraint` - Creates a new SymmetryManufacturingConstraint * - :py:attr:`~AddTemperatureConstraint` - Creates a new TemperatureConstraint * - :py:attr:`~AddThermalComplianceConstraint` - Creates a new ThermalComplianceConstraint * - :py:attr:`~AddUniformConstraint` - Creates a new UniformConstraint * - :py:attr:`~AddVelocity` - Creates a new Velocity * - :py:attr:`~AddViscoelasticHeating` - Creates a new ViscoelasticHeating * - :py:attr:`~AddVoltage` - Creates a new Voltage * - :py:attr:`~AddVoltageGround` - Creates a new VoltageGround * - :py:attr:`~AddVolumeChargeDensity` - Creates a new VolumeChargeDensity * - :py:attr:`~AddVolumeConstraint` - Creates a new VolumeConstraint * - :py:attr:`~Delete` - Run the Delete action. * - :py:attr:`~GetChildren` - Gets the list of children, filtered by type. * - :py:attr:`~GetChildren` - Gets the list of children, filtered by type. * - :py:attr:`~AddComment` - Creates a new child Comment. * - :py:attr:`~AddFigure` - Creates a new child Figure. * - :py:attr:`~AddImage` - Creates a new child Image. * - :py:attr:`~Activate` - Activate the current object. * - :py:attr:`~CopyTo` - Copies all visible properties from this object to another. * - :py:attr:`~GroupAllSimilarChildren` - Run the GroupAllSimilarChildren action. * - :py:attr:`~GroupSimilarObjects` - Run the GroupSimilarObjects action. * - :py:attr:`~PropertyByName` - Get a property by its unique name. * - :py:attr:`~PropertyByAPIName` - Get a property by its API name. * - :py:attr:`~CreateParameter` - Creates a new parameter for a Property. * - :py:attr:`~GetParameter` - Gets the parameter corresponding to the given property. * - :py:attr:`~RemoveParameter` - Removes the parameter from the parameter set corresponding to the given property. .. tab-item:: Properties .. list-table:: :header-rows: 0 :widths: auto * - :py:attr:`~CellId` - Gets the CellId. * - :py:attr:`~SystemCaption` - Gets the SystemCaption. * - :py:attr:`~InitialConditions` - Get InitialConditions. * - :py:attr:`~ResultFileName` - Get the full path and name of the result file. * - :py:attr:`~InternalObject` - Gets the internal object. For advanced usage only. * - :py:attr:`~EnvironmentTemperature` - Gets or sets the EnvironmentTemperature. * - :py:attr:`~AMProcessSimulation` - Gets or sets the AMProcessSimulation. * - :py:attr:`~AnalysisType` - Gets the AnalysisType. * - :py:attr:`~PhysicsType` - Gets the PhysicsType. * - :py:attr:`~Acoustics` - Gets or sets the Acoustics. * - :py:attr:`~Electric` - Gets the Electric. * - :py:attr:`~GenerateInputOnly` - Gets the GenerateInputOnly. * - :py:attr:`~Structural` - Gets or sets the Structural. * - :py:attr:`~Thermal` - Gets the Thermal. * - :py:attr:`~AnalysisSettings` - Gets the AnalysisSettings. * - :py:attr:`~Solution` - Gets the Solution. * - :py:attr:`~DataModelObjectCategory` - Gets the current DataModelObject's category. * - :py:attr:`~Children` - Gets the list of children. * - :py:attr:`~Comments` - Gets the list of associated comments. * - :py:attr:`~Figures` - Gets the list of associated figures. * - :py:attr:`~Images` - Gets the list of associated images. * - :py:attr:`~ReadOnly` - Gets or sets the ReadOnly. * - :py:attr:`~InternalObject` - Gets the internal object. For advanced usage only. * - :py:attr:`~Properties` - Gets the list of properties for this object. * - :py:attr:`~VisibleProperties` - Gets the list of properties that are visible for this object. Property detail --------------- .. py:property:: CellId :no-index: :type: Optional[System.String] Gets the CellId. .. !! processed by numpydoc !! .. py:property:: SystemCaption :no-index: :type: Optional[System.String] Gets the SystemCaption. .. !! processed by numpydoc !! .. py:property:: InitialConditions :no-index: :type: Optional[System.Collections.Generic.IList[Ansys.ACT.Automation.Mechanical.InitialCondition]] Get InitialConditions. .. !! processed by numpydoc !! .. py:property:: ResultFileName :no-index: :type: Optional[System.String] Get the full path and name of the result file. .. !! processed by numpydoc !! .. py:property:: InternalObject :no-index: :type: Optional[Ansys.Common.Interop.DSObjectsAuto.IDSEnvironmentAuto] Gets the internal object. For advanced usage only. .. !! processed by numpydoc !! .. py:property:: EnvironmentTemperature :no-index: :type: Optional[Ansys.Core.Units.Quantity] Gets or sets the EnvironmentTemperature. .. !! processed by numpydoc !! .. py:property:: AMProcessSimulation :no-index: :type: Optional[Ansys.Mechanical.DataModel.Enums.AMProcessSimulationType] Gets or sets the AMProcessSimulation. .. !! processed by numpydoc !! .. py:property:: AnalysisType :no-index: :type: Optional[Ansys.Mechanical.DataModel.Enums.AnalysisType] Gets the AnalysisType. .. !! processed by numpydoc !! .. py:property:: PhysicsType :no-index: :type: Optional[Ansys.Mechanical.DataModel.Enums.PhysicsType] Gets the PhysicsType. .. !! processed by numpydoc !! .. py:property:: Acoustics :no-index: :type: Optional[System.Boolean] Gets or sets the Acoustics. .. !! processed by numpydoc !! .. py:property:: Electric :no-index: :type: Optional[System.Boolean] Gets the Electric. .. !! processed by numpydoc !! .. py:property:: GenerateInputOnly :no-index: :type: Optional[System.Boolean] Gets the GenerateInputOnly. .. !! processed by numpydoc !! .. py:property:: Structural :no-index: :type: Optional[System.Boolean] Gets or sets the Structural. .. !! processed by numpydoc !! .. py:property:: Thermal :no-index: :type: Optional[System.Boolean] Gets the Thermal. .. !! processed by numpydoc !! .. py:property:: AnalysisSettings :no-index: :type: Optional[Ansys.ACT.Automation.Mechanical.AnalysisSettings.AnalysisSettings] Gets the AnalysisSettings. .. !! processed by numpydoc !! .. py:property:: Solution :no-index: :type: Optional[Ansys.ACT.Automation.Mechanical.Solution] Gets the Solution. .. !! processed by numpydoc !! .. py:property:: DataModelObjectCategory :no-index: :type: Optional[Ansys.Mechanical.DataModel.Enums.DataModelObjectCategory] Gets the current DataModelObject's category. .. !! processed by numpydoc !! .. py:property:: Children :no-index: :type: Optional[System.Collections.Generic.IList[Ansys.Mechanical.DataModel.Interfaces.IDataModelObject]] Gets the list of children. .. !! processed by numpydoc !! .. py:property:: Comments :no-index: :type: Optional[System.Collections.Generic.IEnumerable[Ansys.ACT.Automation.Mechanical.Comment]] Gets the list of associated comments. .. !! processed by numpydoc !! .. py:property:: Figures :no-index: :type: Optional[System.Collections.Generic.IEnumerable[Ansys.ACT.Automation.Mechanical.Figure]] Gets the list of associated figures. .. !! processed by numpydoc !! .. py:property:: Images :no-index: :type: Optional[System.Collections.Generic.IEnumerable[Ansys.ACT.Automation.Mechanical.Image]] Gets the list of associated images. .. !! processed by numpydoc !! .. py:property:: ReadOnly :no-index: :type: Optional[System.Boolean] Gets or sets the ReadOnly. .. !! processed by numpydoc !! .. py:property:: InternalObject :no-index: :type: Optional[System.Object] Gets the internal object. For advanced usage only. .. !! processed by numpydoc !! .. py:property:: Properties :no-index: :type: Optional[System.Collections.Generic.IReadOnlyList[Ansys.ACT.Automation.Mechanical.Property]] Gets the list of properties for this object. .. !! processed by numpydoc !! .. py:property:: VisibleProperties :no-index: :type: Optional[System.Collections.Generic.IReadOnlyList[Ansys.ACT.Automation.Mechanical.Property]] Gets the list of properties that are visible for this object. .. !! processed by numpydoc !! Method detail ------------- .. py:method:: AddTemperature(representation: Ansys.Mechanical.DataModel.MechanicalEnums.BoundaryConditions.DataRepresentation) -> Ansys.ACT.Automation.Mechanical.BoundaryConditions.Temperature :no-index: .. code-block:: text Creates a new child Temperature. DataRepresentation.Field will use the Field object for working with tabular data DataRepresentation.Flexible allows the use of the following types: Quantity: The unit must be a valid temperature unit string: It is interpreted as s table if it matches a Table name. Else it is interpreted as an expresion Table: A table object can be specified. .. !! processed by numpydoc !! .. py:method:: AddThermalCondition(representation: Ansys.Mechanical.DataModel.MechanicalEnums.BoundaryConditions.DataRepresentation) -> Ansys.ACT.Automation.Mechanical.BoundaryConditions.ThermalCondition :no-index: .. code-block:: text Creates a new child ThermalCondition. DataRepresentation.Field will use the Field object for working with tabular data DataRepresentation.Flexible allows the use of the following types: Quantity: The unit must be a valid temperature unit string: It is interpreted as s table if it matches a Table name. Else it is interpreted as an expresion Table: A table object can be specified. .. !! processed by numpydoc !! .. py:method:: AddPressure(representation: Ansys.Mechanical.DataModel.MechanicalEnums.BoundaryConditions.DataRepresentation) -> Ansys.ACT.Automation.Mechanical.BoundaryConditions.Pressure :no-index: .. code-block:: text Creates a new child Pressure. DataRepresentation.Field will use the Field object for working with tabular data DataRepresentation.Flexible allows the use of the following types when the pressure is defined as a normal to a surface: Quantity: The unit must be a valid Pressure unit string: It is interpreted as s table if it matches a Table name. Else it is interpreted as an expresion Table: A table object can be specified. .. !! processed by numpydoc !! .. py:method:: Solve(wait: System.Boolean) -> System.Void :no-index: Run the Solve action. .. !! processed by numpydoc !! .. py:method:: Solve(wait: System.Boolean, config: System.String) -> System.Void :no-index: Run the Solve action. .. !! processed by numpydoc !! .. py:method:: ClearGeneratedData() -> System.Void :no-index: Run the ClearGeneratedData action. .. !! processed by numpydoc !! .. py:method:: OpenSolverFilesDirectory() -> System.Void :no-index: Run the OpenSolverFilesDirectory action. .. !! processed by numpydoc !! .. py:method:: FilterBasedOnEnvironment() -> System.Void :no-index: .. code-block:: text Enables interface filtering that only displays model-level items applicable to the currently selected environment type. .. !! processed by numpydoc !! .. py:method:: AddInitialVelocity() -> Ansys.ACT.Automation.Mechanical.InitialCondition :no-index: Creates a new child Initial Velocity. .. !! processed by numpydoc !! .. py:method:: AddSystemCouplingRegion() -> Ansys.ACT.Automation.Mechanical.BoundaryConditions.FluidSolidInterface :no-index: Creates a new SystemCouplingRegion .. !! processed by numpydoc !! .. py:method:: AddThermalCondition() -> Ansys.ACT.Automation.Mechanical.BoundaryConditions.ThermalCondition :no-index: Creates a new child ThermalCondition. .. !! processed by numpydoc !! .. py:method:: AddBoltPretension() -> Ansys.ACT.Automation.Mechanical.BoundaryConditions.BoltPretension :no-index: Creates a new BoltPretension .. !! processed by numpydoc !! .. py:method:: AddOptimizationRegion() -> Ansys.ACT.Automation.Mechanical.OptimizationRegion :no-index: Creates a new OptimizationRegion .. !! processed by numpydoc !! .. py:method:: AddAcousticTemperature() -> Ansys.ACT.Automation.Mechanical.BoundaryConditions.AcousticTemperature :no-index: Creates a new child ThermalCondition. .. !! processed by numpydoc !! .. py:method:: AddSourceConductor() -> Ansys.ACT.Automation.Mechanical.BoundaryConditions.LoadGroup :no-index: Creates a new child SourceConductor. .. !! processed by numpydoc !! .. py:method:: WriteSystemCouplingFiles(filename: System.String) -> System.Void :no-index: Writes the system coupling files. Usage WriteSystemCouplingFiles("C:\Desktop\temp\scp1.scp"); .. !! processed by numpydoc !! .. py:method:: CreateAutomaticFarFieldRadiationSurfaces() -> System.Void :no-index: Run the CreateAutomaticEquivalentSourceSurfaces action. .. !! processed by numpydoc !! .. py:method:: CreateAutomaticFSI() -> System.Void :no-index: Run the CreateAutomaticFSI action. .. !! processed by numpydoc !! .. py:method:: CreateAutomaticFSIandFarFieldRadiationSurfaces() -> System.Void :no-index: Run the CreateAutomaticFSIandEquivalentSourceSurfaces action. .. !! processed by numpydoc !! .. py:method:: SelectBodiesWithoutPhysicsRegion() -> System.Void :no-index: Run the SelectBodiesWithoutPhysicsRegion action to select the bodies that don't belong to a Physics Region. .. !! processed by numpydoc !! .. py:method:: SelectBodiesWithMultiplePhysicsRegion() -> System.Void :no-index: Run the SelectBodiesWithMultiplePhysicsRegion action to select the bodies that belong to more than one Physics Region. .. !! processed by numpydoc !! .. py:method:: AddImportedLoadMAPDLResultsFile() -> Ansys.ACT.Automation.Mechanical.ImportedLoads.ImportedLoadGroup :no-index: Creates a new Import Load for MAPDL Results File. .. !! processed by numpydoc !! .. py:method:: AddImportedLoadFluidsResultsFile() -> Ansys.ACT.Automation.Mechanical.ImportedLoads.ImportedLoadGroup :no-index: Creates a new Import Load for Fluids Results File. .. !! processed by numpydoc !! .. py:method:: AddImportedLoadExternalData() -> Ansys.ACT.Automation.Mechanical.ImportedLoads.ImportedLoadGroup :no-index: Creates a new Imported Load (External Data). .. !! processed by numpydoc !! .. py:method:: AddImportedRemoteLoadsGroup() -> Ansys.ACT.Automation.Mechanical.BoundaryConditions.LoadGroup :no-index: Creates a new Import Remote Load Group. .. !! processed by numpydoc !! .. py:method:: TransferDataFrom(analysis: Ansys.ACT.Automation.Mechanical.Analysis) -> System.Void :no-index: Transfer Data From action. .. !! processed by numpydoc !! .. py:method:: UnlinkDataFrom(analysis: Ansys.ACT.Automation.Mechanical.Analysis) -> System.Void :no-index: Unlink Data From action. .. !! processed by numpydoc !! .. py:method:: ImportLoad(analysis: Ansys.ACT.Automation.Mechanical.Analysis) -> System.Void :no-index: Import Load action. .. !! processed by numpydoc !! .. py:method:: ExportNastranFile(exportOptions: Ansys.ACT.Automation.Mechanical.NastranExportOptions) -> System.Void :no-index: Export Nastran File. .. !! processed by numpydoc !! .. py:method:: Duplicate() -> Ansys.Mechanical.DataModel.Interfaces.IDataModelObject :no-index: Duplicate method. .. !! processed by numpydoc !! .. py:method:: AddAcceleration() -> Ansys.ACT.Automation.Mechanical.BoundaryConditions.Acceleration :no-index: Creates a new Acceleration .. !! processed by numpydoc !! .. py:method:: AddAcousticAbsorptionElement() -> Ansys.ACT.Automation.Mechanical.BoundaryConditions.AcousticAbsorptionElement :no-index: Creates a new AcousticAbsorptionElement .. !! processed by numpydoc !! .. py:method:: AddAcousticAbsorptionSurface() -> Ansys.ACT.Automation.Mechanical.BoundaryConditions.AcousticAbsorptionSurface :no-index: Creates a new AcousticAbsorptionSurface .. !! processed by numpydoc !! .. py:method:: AddAcousticDiffuseSoundField() -> Ansys.ACT.Automation.Mechanical.BoundaryConditions.AcousticDiffuseSoundField :no-index: Creates a new AcousticDiffuseSoundField .. !! processed by numpydoc !! .. py:method:: AddAcousticFarFieldRadationSurface() -> Ansys.ACT.Automation.Mechanical.BoundaryConditions.AcousticFarFieldRadationSurface :no-index: Creates a new AcousticFarFieldRadationSurface .. !! processed by numpydoc !! .. py:method:: AddAcousticFreeSurface() -> Ansys.ACT.Automation.Mechanical.BoundaryConditions.AcousticFreeSurface :no-index: Creates a new AcousticFreeSurface .. !! processed by numpydoc !! .. py:method:: AddAcousticImpedanceBoundary() -> Ansys.ACT.Automation.Mechanical.BoundaryConditions.AcousticImpedanceBoundary :no-index: Creates a new AcousticImpedanceBoundary .. !! processed by numpydoc !! .. py:method:: AddAcousticImpedanceSheet() -> Ansys.ACT.Automation.Mechanical.BoundaryConditions.AcousticImpedanceSheet :no-index: Creates a new AcousticImpedanceSheet .. !! processed by numpydoc !! .. py:method:: AddAcousticIncidentWaveSource() -> Ansys.ACT.Automation.Mechanical.BoundaryConditions.AcousticIncidentWaveSource :no-index: Creates a new AcousticIncidentWaveSource .. !! processed by numpydoc !! .. py:method:: AddAcousticLowReducedFrequency() -> Ansys.ACT.Automation.Mechanical.BoundaryConditions.AcousticLowReducedFrequency :no-index: Creates a new AcousticLowReducedFrequency .. !! processed by numpydoc !! .. py:method:: AddAcousticMassSource() -> Ansys.ACT.Automation.Mechanical.BoundaryConditions.AcousticMassSource :no-index: Creates a new AcousticMassSource .. !! processed by numpydoc !! .. py:method:: AddAcousticMassSourceRate() -> Ansys.ACT.Automation.Mechanical.BoundaryConditions.AcousticMassSourceRate :no-index: Creates a new AcousticMassSourceRate .. !! processed by numpydoc !! .. py:method:: AddAcousticPort() -> Ansys.ACT.Automation.Mechanical.BoundaryConditions.AcousticPort :no-index: Creates a new AcousticPort .. !! processed by numpydoc !! .. py:method:: AddAcousticPortInDuct() -> Ansys.ACT.Automation.Mechanical.BoundaryConditions.AcousticPortInDuct :no-index: Creates a new AcousticPortInDuct .. !! processed by numpydoc !! .. py:method:: AddAcousticPressure() -> Ansys.ACT.Automation.Mechanical.BoundaryConditions.AcousticPressure :no-index: Creates a new AcousticPressure .. !! processed by numpydoc !! .. py:method:: AddAcousticRadiationBoundary() -> Ansys.ACT.Automation.Mechanical.BoundaryConditions.AcousticRadiationBoundary :no-index: Creates a new AcousticRadiationBoundary .. !! processed by numpydoc !! .. py:method:: AddAcousticRigidWall() -> Ansys.ACT.Automation.Mechanical.BoundaryConditions.AcousticRigidWall :no-index: Creates a new AcousticRigidWall .. !! processed by numpydoc !! .. py:method:: AddAcousticStaticPressure() -> Ansys.ACT.Automation.Mechanical.BoundaryConditions.AcousticStaticPressure :no-index: Creates a new AcousticStaticPressure .. !! processed by numpydoc !! .. py:method:: AddAcousticSurfaceAcceleration() -> Ansys.ACT.Automation.Mechanical.BoundaryConditions.AcousticSurfaceAcceleration :no-index: Creates a new AcousticSurfaceAcceleration .. !! processed by numpydoc !! .. py:method:: AddAcousticSurfaceVelocity() -> Ansys.ACT.Automation.Mechanical.BoundaryConditions.AcousticSurfaceVelocity :no-index: Creates a new AcousticSurfaceVelocity .. !! processed by numpydoc !! .. py:method:: AddAcousticSymmetryPlane() -> Ansys.ACT.Automation.Mechanical.BoundaryConditions.AcousticSymmetryPlane :no-index: Creates a new AcousticSymmetryPlane .. !! processed by numpydoc !! .. py:method:: AddAcousticThermoViscousBLIBoundary() -> Ansys.ACT.Automation.Mechanical.BoundaryConditions.AcousticThermoViscousBLIBoundary :no-index: Creates a new AcousticThermoViscousBLIBoundary .. !! processed by numpydoc !! .. py:method:: AddAcousticTransferAdmittanceMatrix() -> Ansys.ACT.Automation.Mechanical.BoundaryConditions.AcousticTransferAdmittanceMatrix :no-index: Creates a new AcousticTransferAdmittanceMatrix .. !! processed by numpydoc !! .. py:method:: AddAMOverhangConstraint() -> Ansys.ACT.Automation.Mechanical.AMOverhangConstraint :no-index: Creates a new AMOverhangConstraint .. !! processed by numpydoc !! .. py:method:: AddBearingLoad() -> Ansys.ACT.Automation.Mechanical.BoundaryConditions.BearingLoad :no-index: Creates a new BearingLoad .. !! processed by numpydoc !! .. py:method:: AddBodyControl() -> Ansys.ACT.Automation.Mechanical.BoundaryConditions.BodyControl :no-index: Creates a new BodyControl .. !! processed by numpydoc !! .. py:method:: AddCenterOfGravityConstraint() -> Ansys.ACT.Automation.Mechanical.CenterOfGravityConstraint :no-index: Creates a new CenterOfGravityConstraint .. !! processed by numpydoc !! .. py:method:: AddCommandSnippet() -> Ansys.ACT.Automation.Mechanical.CommandSnippet :no-index: Creates a new CommandSnippet .. !! processed by numpydoc !! .. py:method:: AddComplexityIndexConstraint() -> Ansys.ACT.Automation.Mechanical.ComplexityIndexConstraint :no-index: Creates a new ComplexityIndexConstraint .. !! processed by numpydoc !! .. py:method:: AddComplianceConstraint() -> Ansys.ACT.Automation.Mechanical.ComplianceConstraint :no-index: Creates a new ComplianceConstraint .. !! processed by numpydoc !! .. py:method:: AddCompressionOnlySupport() -> Ansys.ACT.Automation.Mechanical.BoundaryConditions.CompressionOnlySupport :no-index: Creates a new CompressionOnlySupport .. !! processed by numpydoc !! .. py:method:: AddConstraintEquation() -> Ansys.ACT.Automation.Mechanical.BoundaryConditions.ConstraintEquation :no-index: Creates a new ConstraintEquation .. !! processed by numpydoc !! .. py:method:: AddContactStepControl() -> Ansys.ACT.Automation.Mechanical.BoundaryConditions.ContactStepControl :no-index: Creates a new ContactStepControl .. !! processed by numpydoc !! .. py:method:: AddConvection() -> Ansys.ACT.Automation.Mechanical.BoundaryConditions.Convection :no-index: Creates a new Convection .. !! processed by numpydoc !! .. py:method:: AddCoupling() -> Ansys.ACT.Automation.Mechanical.BoundaryConditions.Coupling :no-index: Creates a new Coupling .. !! processed by numpydoc !! .. py:method:: AddVoltageCoupling() -> Ansys.ACT.Automation.Mechanical.BoundaryConditions.Coupling :no-index: Creates a new Coupling .. !! processed by numpydoc !! .. py:method:: AddCriterionConstraint() -> Ansys.ACT.Automation.Mechanical.CriterionConstraint :no-index: Creates a new CriterionConstraint .. !! processed by numpydoc !! .. py:method:: AddCurrent() -> Ansys.ACT.Automation.Mechanical.BoundaryConditions.Current :no-index: Creates a new Current .. !! processed by numpydoc !! .. py:method:: AddCyclicManufacturingConstraint() -> Ansys.ACT.Automation.Mechanical.CyclicManufacturingConstraint :no-index: Creates a new CyclicManufacturingConstraint .. !! processed by numpydoc !! .. py:method:: AddCylindricalSupport() -> Ansys.ACT.Automation.Mechanical.BoundaryConditions.CylindricalSupport :no-index: Creates a new CylindricalSupport .. !! processed by numpydoc !! .. py:method:: AddDetonationPoint() -> Ansys.ACT.Automation.Mechanical.BoundaryConditions.DetonationPoint :no-index: Creates a new DetonationPoint .. !! processed by numpydoc !! .. py:method:: AddDisplacement() -> Ansys.ACT.Automation.Mechanical.BoundaryConditions.Displacement :no-index: Creates a new Displacement .. !! processed by numpydoc !! .. py:method:: AddDisplacementConstraint() -> Ansys.ACT.Automation.Mechanical.DisplacementConstraint :no-index: Creates a new DisplacementConstraint .. !! processed by numpydoc !! .. py:method:: AddDynamicComplianceConstraint() -> Ansys.ACT.Automation.Mechanical.DynamicComplianceConstraint :no-index: Creates a new DynamicComplianceConstraint .. !! processed by numpydoc !! .. py:method:: AddEarthGravity() -> Ansys.ACT.Automation.Mechanical.BoundaryConditions.EarthGravity :no-index: Creates a new EarthGravity .. !! processed by numpydoc !! .. py:method:: AddElasticSupport() -> Ansys.ACT.Automation.Mechanical.BoundaryConditions.ElasticSupport :no-index: Creates a new ElasticSupport .. !! processed by numpydoc !! .. py:method:: AddElectricCharge() -> Ansys.ACT.Automation.Mechanical.BoundaryConditions.ElectricCharge :no-index: Creates a new ElectricCharge .. !! processed by numpydoc !! .. py:method:: AddElementBirthAndDeath() -> Ansys.ACT.Automation.Mechanical.BoundaryConditions.ElementBirthAndDeath :no-index: Creates a new ElementBirthAndDeath .. !! processed by numpydoc !! .. py:method:: AddEMTransducer() -> Ansys.ACT.Automation.Mechanical.BoundaryConditions.EMTransducer :no-index: Creates a new EMTransducer .. !! processed by numpydoc !! .. py:method:: AddExtrusionManufacturingConstraint() -> Ansys.ACT.Automation.Mechanical.ExtrusionManufacturingConstraint :no-index: Creates a new ExtrusionManufacturingConstraint .. !! processed by numpydoc !! .. py:method:: AddFixedRotation() -> Ansys.ACT.Automation.Mechanical.BoundaryConditions.FixedRotation :no-index: Creates a new FixedRotation .. !! processed by numpydoc !! .. py:method:: AddFixedSupport() -> Ansys.ACT.Automation.Mechanical.BoundaryConditions.FixedSupport :no-index: Creates a new FixedSupport .. !! processed by numpydoc !! .. py:method:: AddFluidPenetrationPressure() -> Ansys.ACT.Automation.Mechanical.BoundaryConditions.FluidPenetrationPressure :no-index: .. code-block:: text Creates a new Fluid Penetration Pressure object in Mechanical. This load object is used to simulate surrounding fluid or air penetrating into the contact interface. Users can apply this load to flexible-to-flexible or rigid-to-flexible contact pairs. This load object is available for static structural analysis. .. !! processed by numpydoc !! .. py:method:: AddFluidSolidInterface() -> Ansys.ACT.Automation.Mechanical.BoundaryConditions.FluidSolidInterface :no-index: Creates a new FluidSolidInterface .. !! processed by numpydoc !! .. py:method:: AddForce() -> Ansys.ACT.Automation.Mechanical.BoundaryConditions.Force :no-index: Creates a new Force .. !! processed by numpydoc !! .. py:method:: AddFrictionlessSupport() -> Ansys.ACT.Automation.Mechanical.BoundaryConditions.FrictionlessSupport :no-index: Creates a new FrictionlessSupport .. !! processed by numpydoc !! .. py:method:: AddGeneralizedPlaneStrain() -> Ansys.ACT.Automation.Mechanical.BoundaryConditions.GeneralizedPlaneStrain :no-index: Creates a new GeneralizedPlaneStrain .. !! processed by numpydoc !! .. py:method:: AddGeometryBasedAdaptivity() -> Ansys.ACT.Automation.Mechanical.BoundaryConditions.GeometryBasedAdaptivity :no-index: Creates a new GeometryBasedAdaptivity .. !! processed by numpydoc !! .. py:method:: AddGlobalVonMisesStressConstraint() -> Ansys.ACT.Automation.Mechanical.GlobalVonMisesStressConstraint :no-index: Creates a new GlobalVonMisesStressConstraint .. !! processed by numpydoc !! .. py:method:: AddHeatFlow() -> Ansys.ACT.Automation.Mechanical.BoundaryConditions.HeatFlow :no-index: Creates a new HeatFlow .. !! processed by numpydoc !! .. py:method:: AddHeatFlux() -> Ansys.ACT.Automation.Mechanical.BoundaryConditions.HeatFlux :no-index: Creates a new HeatFlux .. !! processed by numpydoc !! .. py:method:: AddHousingConstraint() -> Ansys.ACT.Automation.Mechanical.HousingConstraint :no-index: Creates a new HousingConstraint .. !! processed by numpydoc !! .. py:method:: AddHydrostaticPressure() -> Ansys.ACT.Automation.Mechanical.BoundaryConditions.HydrostaticPressure :no-index: Creates a new HydrostaticPressure .. !! processed by numpydoc !! .. py:method:: AddImpedanceBoundary() -> Ansys.ACT.Automation.Mechanical.BoundaryConditions.ImpedanceBoundary :no-index: Creates a new ImpedanceBoundary .. !! processed by numpydoc !! .. py:method:: AddImportedCFDPressure() -> Ansys.ACT.Automation.Mechanical.BoundaryConditions.ImportedCFDPressure :no-index: Creates a new ImportedCFDPressure .. !! processed by numpydoc !! .. py:method:: AddInternalHeatGeneration() -> Ansys.ACT.Automation.Mechanical.BoundaryConditions.InternalHeatGeneration :no-index: Creates a new InternalHeatGeneration .. !! processed by numpydoc !! .. py:method:: AddJointLoad() -> Ansys.ACT.Automation.Mechanical.BoundaryConditions.JointLoad :no-index: Creates a new JointLoad .. !! processed by numpydoc !! .. py:method:: AddLimitBoundary() -> Ansys.ACT.Automation.Mechanical.BoundaryConditions.LimitBoundary :no-index: Creates a new LimitBoundary .. !! processed by numpydoc !! .. py:method:: AddLinePressure() -> Ansys.ACT.Automation.Mechanical.BoundaryConditions.LinePressure :no-index: Creates a new LinePressure .. !! processed by numpydoc !! .. py:method:: AddLocalVonMisesStressConstraint() -> Ansys.ACT.Automation.Mechanical.LocalVonMisesStressConstraint :no-index: Creates a new LocalVonMisesStressConstraint .. !! processed by numpydoc !! .. py:method:: AddMagneticFluxParallel() -> Ansys.ACT.Automation.Mechanical.BoundaryConditions.MagneticFluxParallel :no-index: Creates a new MagneticFluxParallel .. !! processed by numpydoc !! .. py:method:: AddMassConstraint() -> Ansys.ACT.Automation.Mechanical.MassConstraint :no-index: Creates a new MassConstraint .. !! processed by numpydoc !! .. py:method:: AddMassFlowRate() -> Ansys.ACT.Automation.Mechanical.BoundaryConditions.MassFlowRate :no-index: Creates a new MassFlowRate .. !! processed by numpydoc !! .. py:method:: AddMemberSizeManufacturingConstraint() -> Ansys.ACT.Automation.Mechanical.MemberSizeManufacturingConstraint :no-index: Creates a new MemberSizeManufacturingConstraint .. !! processed by numpydoc !! .. py:method:: AddMoment() -> Ansys.ACT.Automation.Mechanical.BoundaryConditions.Moment :no-index: Creates a new Moment .. !! processed by numpydoc !! .. py:method:: AddMomentOfInertiaConstraint() -> Ansys.ACT.Automation.Mechanical.MomentOfInertiaConstraint :no-index: Creates a new MomentOfInertiaConstraint .. !! processed by numpydoc !! .. py:method:: AddMorphingRegion() -> Ansys.ACT.Automation.Mechanical.MorphingRegion :no-index: Creates a new MorphingRegion .. !! processed by numpydoc !! .. py:method:: AddNaturalFrequencyConstraint() -> Ansys.ACT.Automation.Mechanical.NaturalFrequencyConstraint :no-index: Creates a new NaturalFrequencyConstraint .. !! processed by numpydoc !! .. py:method:: AddNodalDisplacement() -> Ansys.ACT.Automation.Mechanical.BoundaryConditions.NodalDisplacement :no-index: Creates a new NodalDisplacement .. !! processed by numpydoc !! .. py:method:: AddNodalForce() -> Ansys.ACT.Automation.Mechanical.BoundaryConditions.NodalForce :no-index: Creates a new NodalForce .. !! processed by numpydoc !! .. py:method:: AddNodalOrientation() -> Ansys.ACT.Automation.Mechanical.BoundaryConditions.NodalOrientation :no-index: Creates a new NodalOrientation .. !! processed by numpydoc !! .. py:method:: AddNodalPressure() -> Ansys.ACT.Automation.Mechanical.BoundaryConditions.NodalPressure :no-index: Creates a new NodalPressure .. !! processed by numpydoc !! .. py:method:: AddNodalRotation() -> Ansys.ACT.Automation.Mechanical.BoundaryConditions.NodalRotation :no-index: Creates a new NodalRotation .. !! processed by numpydoc !! .. py:method:: AddNonlinearAdaptiveRegion() -> Ansys.ACT.Automation.Mechanical.BoundaryConditions.NonlinearAdaptiveRegion :no-index: Creates a new NonlinearAdaptiveRegion .. !! processed by numpydoc !! .. py:method:: AddObjective() -> Ansys.ACT.Automation.Mechanical.Objective :no-index: Creates a new Objective .. !! processed by numpydoc !! .. py:method:: AddPatternRepetitionConstraint() -> Ansys.ACT.Automation.Mechanical.PatternRepetitionConstraint :no-index: Creates a new PatternRepetitionConstraint .. !! processed by numpydoc !! .. py:method:: AddPerfectlyInsulated() -> Ansys.ACT.Automation.Mechanical.BoundaryConditions.PerfectlyInsulated :no-index: Creates a new PerfectlyInsulated .. !! processed by numpydoc !! .. py:method:: AddPhysicsRegion() -> Ansys.ACT.Automation.Mechanical.PhysicsRegion :no-index: Creates a new PhysicsRegion .. !! processed by numpydoc !! .. py:method:: AddPipeIdealization() -> Ansys.ACT.Automation.Mechanical.PipeIdealization :no-index: Creates a new child PipeIdealization. .. !! processed by numpydoc !! .. py:method:: AddPipePressure() -> Ansys.ACT.Automation.Mechanical.BoundaryConditions.PipePressure :no-index: Creates a new PipePressure .. !! processed by numpydoc !! .. py:method:: AddPipeTemperature() -> Ansys.ACT.Automation.Mechanical.BoundaryConditions.PipeTemperature :no-index: Creates a new PipeTemperature .. !! processed by numpydoc !! .. py:method:: AddPlasticHeating() -> Ansys.ACT.Automation.Mechanical.BoundaryConditions.PlasticHeating :no-index: Creates a new PlasticHeating .. !! processed by numpydoc !! .. py:method:: AddPSDAcceleration() -> Ansys.ACT.Automation.Mechanical.BoundaryConditions.PSDAcceleration :no-index: Creates a new PSDAcceleration .. !! processed by numpydoc !! .. py:method:: AddPSDDisplacement() -> Ansys.ACT.Automation.Mechanical.BoundaryConditions.PSDDisplacement :no-index: Creates a new PSDDisplacement .. !! processed by numpydoc !! .. py:method:: AddPSDGAcceleration() -> Ansys.ACT.Automation.Mechanical.BoundaryConditions.PSDGAcceleration :no-index: Creates a new PSDGAcceleration .. !! processed by numpydoc !! .. py:method:: AddPSDVelocity() -> Ansys.ACT.Automation.Mechanical.BoundaryConditions.PSDVelocity :no-index: Creates a new PSDVelocity .. !! processed by numpydoc !! .. py:method:: AddPullOutDirectionManufacturingConstraint() -> Ansys.ACT.Automation.Mechanical.PullOutDirectionManufacturingConstraint :no-index: Creates a new PullOutDirectionManufacturingConstraint .. !! processed by numpydoc !! .. py:method:: AddPythonCodeEventBased() -> Ansys.ACT.Automation.Mechanical.PythonCodeEventBased :no-index: Creates a new PythonCodeEventBased .. !! processed by numpydoc !! .. py:method:: AddRadiation() -> Ansys.ACT.Automation.Mechanical.BoundaryConditions.Radiation :no-index: Creates a new Radiation .. !! processed by numpydoc !! .. py:method:: AddReactionForceConstraint() -> Ansys.ACT.Automation.Mechanical.ReactionForceConstraint :no-index: Creates a new ReactionForceConstraint .. !! processed by numpydoc !! .. py:method:: AddRemoteDisplacement() -> Ansys.ACT.Automation.Mechanical.BoundaryConditions.RemoteDisplacement :no-index: Creates a new RemoteDisplacement .. !! processed by numpydoc !! .. py:method:: AddRemoteForce() -> Ansys.ACT.Automation.Mechanical.BoundaryConditions.RemoteForce :no-index: Creates a new RemoteForce .. !! processed by numpydoc !! .. py:method:: AddRotatingForce() -> Ansys.ACT.Automation.Mechanical.BoundaryConditions.RotatingForce :no-index: Creates a new RotatingForce .. !! processed by numpydoc !! .. py:method:: AddRotationalAcceleration() -> Ansys.ACT.Automation.Mechanical.BoundaryConditions.RotationalAcceleration :no-index: Creates a new RotationalAcceleration .. !! processed by numpydoc !! .. py:method:: AddRotationalVelocity() -> Ansys.ACT.Automation.Mechanical.BoundaryConditions.RotationalVelocity :no-index: Creates a new RotationalVelocity .. !! processed by numpydoc !! .. py:method:: AddRSAcceleration() -> Ansys.ACT.Automation.Mechanical.BoundaryConditions.RSAcceleration :no-index: Creates a new RSAcceleration .. !! processed by numpydoc !! .. py:method:: AddRSDisplacement() -> Ansys.ACT.Automation.Mechanical.BoundaryConditions.RSDisplacement :no-index: Creates a new RSDisplacement .. !! processed by numpydoc !! .. py:method:: AddRSVelocity() -> Ansys.ACT.Automation.Mechanical.BoundaryConditions.RSVelocity :no-index: Creates a new RSVelocity .. !! processed by numpydoc !! .. py:method:: AddSimplySupported() -> Ansys.ACT.Automation.Mechanical.BoundaryConditions.SimplySupported :no-index: Creates a new SimplySupported .. !! processed by numpydoc !! .. py:method:: AddSubstructureGenerationCondensedPart() -> Ansys.ACT.Automation.Mechanical.SubstructureGenerationCondensedPart :no-index: Creates a new SubstructureGenerationCondensedPart .. !! processed by numpydoc !! .. py:method:: AddSurfaceChargeDensity() -> Ansys.ACT.Automation.Mechanical.BoundaryConditions.SurfaceChargeDensity :no-index: Creates a new SurfaceChargeDensity .. !! processed by numpydoc !! .. py:method:: AddSymmetryManufacturingConstraint() -> Ansys.ACT.Automation.Mechanical.SymmetryManufacturingConstraint :no-index: Creates a new SymmetryManufacturingConstraint .. !! processed by numpydoc !! .. py:method:: AddTemperatureConstraint() -> Ansys.ACT.Automation.Mechanical.TemperatureConstraint :no-index: Creates a new TemperatureConstraint .. !! processed by numpydoc !! .. py:method:: AddThermalComplianceConstraint() -> Ansys.ACT.Automation.Mechanical.ThermalComplianceConstraint :no-index: Creates a new ThermalComplianceConstraint .. !! processed by numpydoc !! .. py:method:: AddUniformConstraint() -> Ansys.ACT.Automation.Mechanical.UniformConstraint :no-index: Creates a new UniformConstraint .. !! processed by numpydoc !! .. py:method:: AddVelocity() -> Ansys.ACT.Automation.Mechanical.BoundaryConditions.Velocity :no-index: Creates a new Velocity .. !! processed by numpydoc !! .. py:method:: AddViscoelasticHeating() -> Ansys.ACT.Automation.Mechanical.BoundaryConditions.ViscoelasticHeating :no-index: Creates a new ViscoelasticHeating .. !! processed by numpydoc !! .. py:method:: AddVoltage() -> Ansys.ACT.Automation.Mechanical.BoundaryConditions.Voltage :no-index: Creates a new Voltage .. !! processed by numpydoc !! .. py:method:: AddVoltageGround() -> Ansys.ACT.Automation.Mechanical.BoundaryConditions.VoltageGround :no-index: Creates a new VoltageGround .. !! processed by numpydoc !! .. py:method:: AddVolumeChargeDensity() -> Ansys.ACT.Automation.Mechanical.BoundaryConditions.VolumeChargeDensity :no-index: Creates a new VolumeChargeDensity .. !! processed by numpydoc !! .. py:method:: AddVolumeConstraint() -> Ansys.ACT.Automation.Mechanical.VolumeConstraint :no-index: Creates a new VolumeConstraint .. !! processed by numpydoc !! .. py:method:: Delete() -> System.Void :no-index: Run the Delete action. .. !! processed by numpydoc !! .. py:method:: GetChildren(recurses: System.Boolean, children: System.Collections.Generic.IList[ChildrenType]) -> System.Collections.Generic.IList[ChildrenType] :no-index: Gets the list of children, filtered by type. .. !! processed by numpydoc !! .. py:method:: GetChildren(category: Ansys.Mechanical.DataModel.Enums.DataModelObjectCategory, recurses: System.Boolean, children: System.Collections.Generic.IList[Ansys.Mechanical.DataModel.Interfaces.IDataModelObject]) -> System.Collections.Generic.IList[Ansys.Mechanical.DataModel.Interfaces.IDataModelObject] :no-index: Gets the list of children, filtered by type. .. !! processed by numpydoc !! .. py:method:: AddComment() -> Ansys.ACT.Automation.Mechanical.Comment :no-index: Creates a new child Comment. .. !! processed by numpydoc !! .. py:method:: AddFigure() -> Ansys.ACT.Automation.Mechanical.Figure :no-index: Creates a new child Figure. .. !! processed by numpydoc !! .. py:method:: AddImage(filePath: System.String) -> Ansys.ACT.Automation.Mechanical.Image :no-index: .. 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:: Activate() -> System.Void :no-index: Activate the current object. .. !! processed by numpydoc !! .. py:method:: CopyTo(other: Ansys.ACT.Automation.Mechanical.DataModelObject) -> System.Void :no-index: Copies all visible properties from this object to another. .. !! processed by numpydoc !! .. py:method:: GroupAllSimilarChildren() -> System.Void :no-index: Run the GroupAllSimilarChildren action. .. !! processed by numpydoc !! .. py:method:: GroupSimilarObjects() -> Ansys.ACT.Automation.Mechanical.TreeGroupingFolder :no-index: Run the GroupSimilarObjects action. .. !! processed by numpydoc !! .. py:method:: PropertyByName(name: System.String) -> Ansys.ACT.Automation.Mechanical.Property :no-index: Get a property by its unique name. .. !! processed by numpydoc !! .. py:method:: PropertyByAPIName(name: System.String) -> Ansys.ACT.Automation.Mechanical.Property :no-index: .. 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:: CreateParameter(propName: System.String) -> Ansys.ACT.Interfaces.Mechanical.IParameter :no-index: Creates a new parameter for a Property. .. !! processed by numpydoc !! .. py:method:: GetParameter(propName: System.String) -> Ansys.ACT.Interfaces.Mechanical.IParameter :no-index: Gets the parameter corresponding to the given property. .. !! processed by numpydoc !! .. py:method:: RemoveParameter(propName: System.String) -> System.Void :no-index: Removes the parameter from the parameter set corresponding to the given property. .. !! processed by numpydoc !! .. vale on