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Mechanical scripting interface

Analysis

Last update: 14.01.2025

class Ansys.ACT.Automation.Mechanical.Analysis

Bases: object

Defines a Analysis.

Overview

Methods

Name Description
Activate Activate the current object.
AddAMOverhangConstraint Creates a new AMOverhangConstraint
AddAcceleration Creates a new Acceleration
AddAcousticAbsorptionElement Creates a new AcousticAbsorptionElement
AddAcousticAbsorptionSurface Creates a new AcousticAbsorptionSurface
AddAcousticDiffuseSoundField Creates a new AcousticDiffuseSoundField
AddAcousticFarFieldRadationSurface Creates a new AcousticFarFieldRadationSurface
AddAcousticFreeSurface Creates a new AcousticFreeSurface
AddAcousticImpedanceBoundary Creates a new AcousticImpedanceBoundary
AddAcousticImpedanceSheet Creates a new AcousticImpedanceSheet
AddAcousticIncidentWaveSource Creates a new AcousticIncidentWaveSource
AddAcousticLowReducedFrequency Creates a new AcousticLowReducedFrequency
AddAcousticMassSource Creates a new AcousticMassSource
AddAcousticMassSourceRate Creates a new AcousticMassSourceRate
AddAcousticPort Creates a new AcousticPort
AddAcousticPortInDuct Creates a new AcousticPortInDuct
AddAcousticPressure Creates a new AcousticPressure
AddAcousticRadiationBoundary Creates a new AcousticRadiationBoundary
AddAcousticRigidWall Creates a new AcousticRigidWall
AddAcousticStaticPressure Creates a new AcousticStaticPressure
AddAcousticSurfaceAcceleration Creates a new AcousticSurfaceAcceleration
AddAcousticSurfaceVelocity Creates a new AcousticSurfaceVelocity
AddAcousticSymmetryPlane Creates a new AcousticSymmetryPlane
AddAcousticTemperature Creates a new child ThermalCondition.
AddAcousticThermoViscousBLIBoundary Creates a new AcousticThermoViscousBLIBoundary
AddAcousticTransferAdmittanceMatrix Creates a new AcousticTransferAdmittanceMatrix
AddBearingLoad Creates a new BearingLoad
AddBodyControl Creates a new BodyControl
AddBoltPretension Creates a new BoltPretension
AddCenterOfGravityConstraint Creates a new CenterOfGravityConstraint
AddCommandSnippet Creates a new CommandSnippet
AddComment Creates a new child Comment.
AddComplexityIndexConstraint Creates a new ComplexityIndexConstraint
AddComplianceConstraint Creates a new ComplianceConstraint
AddCompressionOnlySupport Creates a new CompressionOnlySupport
AddConstraintEquation Creates a new ConstraintEquation
AddContactStepControl Creates a new ContactStepControl
AddConvection
AddCoupling Creates a new Coupling
AddCriterionConstraint Creates a new CriterionConstraint
AddCurrent Creates a new Current
AddCyclicManufacturingConstraint Creates a new CyclicManufacturingConstraint
AddCylindricalSupport Creates a new CylindricalSupport
AddDetonationPoint Creates a new DetonationPoint
AddDisplacement Creates a new Displacement
AddDisplacementConstraint Creates a new DisplacementConstraint
AddDynamicComplianceConstraint Creates a new DynamicComplianceConstraint
AddEMTransducer Creates a new EMTransducer
AddEarthGravity Creates a new EarthGravity
AddElasticSupport Creates a new ElasticSupport
AddElectricCharge Creates a new ElectricCharge
AddElementBirthAndDeath Creates a new ElementBirthAndDeath
AddExtrusionManufacturingConstraint Creates a new ExtrusionManufacturingConstraint
AddFigure Creates a new child Figure.
AddFixedRotation Creates a new FixedRotation
AddFixedSupport Creates a new FixedSupport
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.
AddFluidSolidInterface Creates a new FluidSolidInterface
AddForce Creates a new Force
AddFrictionlessSupport Creates a new FrictionlessSupport
AddGeneralizedPlaneStrain Creates a new GeneralizedPlaneStrain
AddGeometryBasedAdaptivity Creates a new GeometryBasedAdaptivity
AddGlobalVonMisesStressConstraint Creates a new GlobalVonMisesStressConstraint
AddHeatFlow Creates a new HeatFlow
AddHeatFlux Creates a new HeatFlux
AddHousingConstraint Creates a new HousingConstraint
AddHydrostaticPressure Creates a new HydrostaticPressure
AddImage Creates a new child Image.
AddImpedanceBoundary Creates a new ImpedanceBoundary
AddImportedCFDPressure Creates a new ImportedCFDPressure
AddImportedLoadExternalData Creates a new Imported Load (External Data).
AddImportedLoadFluidsResultsFile Creates a new Import Load for Fluids Results File.
AddImportedLoadMAPDLResultsFile Creates a new Import Load for MAPDL Results File.
AddImportedRemoteLoadsGroup Creates a new Import Remote Load Group.
AddInitialVelocity Creates a new child Initial Velocity.
AddInternalHeatGeneration Creates a new InternalHeatGeneration
AddJointLoad Creates a new JointLoad
AddLimitBoundary Creates a new LimitBoundary
AddLinePressure Creates a new LinePressure
AddLocalVonMisesStressConstraint Creates a new LocalVonMisesStressConstraint
AddMagneticFluxParallel Creates a new MagneticFluxParallel
AddMassConstraint Creates a new MassConstraint
AddMassFlowRate Creates a new MassFlowRate
AddMemberSizeManufacturingConstraint Creates a new MemberSizeManufacturingConstraint
AddMoment Creates a new Moment
AddMomentOfInertiaConstraint Creates a new MomentOfInertiaConstraint
AddMorphingRegion Creates a new MorphingRegion
AddNaturalFrequencyConstraint Creates a new NaturalFrequencyConstraint
AddNodalDisplacement Creates a new NodalDisplacement
AddNodalForce Creates a new NodalForce
AddNodalOrientation Creates a new NodalOrientation
AddNodalPressure Creates a new NodalPressure
AddNodalRotation Creates a new NodalRotation
AddNonlinearAdaptiveRegion Creates a new NonlinearAdaptiveRegion
AddObjective Creates a new Objective
AddOptimizationRegion Creates a new OptimizationRegion
AddPSDAcceleration Creates a new PSDAcceleration
AddPSDDisplacement Creates a new PSDDisplacement
AddPSDGAcceleration Creates a new PSDGAcceleration
AddPSDVelocity Creates a new PSDVelocity
AddPatternRepetitionConstraint Creates a new PatternRepetitionConstraint
AddPerfectlyInsulated Creates a new PerfectlyInsulated
AddPhysicsRegion Creates a new PhysicsRegion
AddPipeIdealization Creates a new child PipeIdealization.
AddPipePressure Creates a new PipePressure
AddPipeTemperature Creates a new PipeTemperature
AddPlasticHeating Creates a new PlasticHeating
AddPressure Creates a new child Pressure.
AddPullOutDirectionManufacturingConstraint Creates a new PullOutDirectionManufacturingConstraint
AddPythonCodeEventBased Creates a new PythonCodeEventBased
AddRSAcceleration Creates a new RSAcceleration
AddRSDisplacement Creates a new RSDisplacement
AddRSVelocity Creates a new RSVelocity
AddRadiation Creates a new Radiation
AddReactionForceConstraint Creates a new ReactionForceConstraint
AddRemoteDisplacement Creates a new RemoteDisplacement
AddRemoteForce Creates a new RemoteForce
AddRotatingForce Creates a new RotatingForce
AddRotationalAcceleration Creates a new RotationalAcceleration
AddRotationalVelocity Creates a new RotationalVelocity
AddSimplySupported Creates a new SimplySupported
AddSourceConductor Creates a new child SourceConductor.
AddSubstructureGenerationCondensedPart Creates a new SubstructureGenerationCondensedPart
AddSurfaceChargeDensity Creates a new SurfaceChargeDensity
AddSymmetryManufacturingConstraint Creates a new SymmetryManufacturingConstraint
AddSystemCouplingRegion Creates a new SystemCouplingRegion
AddTemperature Creates a new child Temperature.
AddTemperatureConstraint Creates a new TemperatureConstraint
AddThermalComplianceConstraint Creates a new ThermalComplianceConstraint
AddThermalCondition
AddUniformConstraint Creates a new UniformConstraint
AddVelocity Creates a new Velocity
AddViscoelasticHeating Creates a new ViscoelasticHeating
AddVoltage Creates a new Voltage
AddVoltageCoupling Creates a new Coupling
AddVoltageGround Creates a new VoltageGround
AddVolumeChargeDensity Creates a new VolumeChargeDensity
AddVolumeConstraint Creates a new VolumeConstraint
ClearGeneratedData Run the ClearGeneratedData action.
CopyTo Copies all visible properties from this object to another.
CreateAutomaticFSI Run the CreateAutomaticFSI action.
CreateAutomaticFSIandFarFieldRadiationSurfaces Run the CreateAutomaticFSIandEquivalentSourceSurfaces action.
CreateAutomaticFarFieldRadiationSurfaces Run the CreateAutomaticEquivalentSourceSurfaces action.
CreateParameter Creates a new parameter for a Property.
Delete Run the Delete action.
Duplicate Duplicate method.
ExportNastranFile Export Nastran File.
FilterBasedOnEnvironment Enables interface filtering that only displays model-level items applicable to
GetChildren Gets the list of children, filtered by type.
GetParameter Gets the parameter corresponding to the given property.
GroupAllSimilarChildren Run the GroupAllSimilarChildren action.
GroupSimilarObjects Run the GroupSimilarObjects action.
ImportLoad Import Load action.
OpenSolverFilesDirectory Run the OpenSolverFilesDirectory action.
PropertyByAPIName Get a property by its API name.
PropertyByName Get a property by its unique name.
RemoveParameter Removes the parameter from the parameter set corresponding to the given property.
SelectBodiesWithMultiplePhysicsRegion Run the SelectBodiesWithMultiplePhysicsRegion action to select the bodies that belong to more than one Physics Region.
SelectBodiesWithoutPhysicsRegion Run the SelectBodiesWithoutPhysicsRegion action to select the bodies that don’t belong to a Physics Region.
Solve Run the Solve action.
TransferDataFrom Transfer Data From action.
UnlinkDataFrom Unlink Data From action.
WriteSystemCouplingFiles Writes the system coupling files. Usage WriteSystemCouplingFiles(“C:Desktoptempscp1.scp”);

Properties

Name Description
AMProcessSimulation Gets or sets the AMProcessSimulation.
Acoustics Gets or sets the Acoustics.
AnalysisSettings Gets the AnalysisSettings.
AnalysisType Gets the AnalysisType.
CellId Gets the CellId.
Children Gets the list of children.
Comments Gets the list of associated comments.
DataModelObjectCategory Gets the current DataModelObject’s category.
Electric Gets the Electric.
EnvironmentTemperature Gets or sets the EnvironmentTemperature.
Figures Gets the list of associated figures.
GenerateInputOnly Gets the GenerateInputOnly.
Images Gets the list of associated images.
InitialConditions Get InitialConditions.
InternalObject Gets the internal object. For advanced usage only.
PhysicsType Gets the PhysicsType.
Properties Gets the list of properties for this object.
ReadOnly Gets or sets the ReadOnly.
ResultFileName Get the full path and name of the result file.
Solution Gets the Solution.
Structural Gets or sets the Structural.
SystemCaption Gets the SystemCaption.
Thermal Gets the Thermal.
VisibleProperties Gets the list of properties that are visible for this object.

Property detail

property Analysis.AMProcessSimulation : Ansys.Mechanical.DataModel.Enums.AMProcessSimulationType | None

Gets or sets the AMProcessSimulation.

property Analysis.Acoustics : bool | None

Gets or sets the Acoustics.

property Analysis.AnalysisSettings : Ansys.ACT.Automation.Mechanical.AnalysisSettings.AnalysisSettings | None

Gets the AnalysisSettings.

property Analysis.AnalysisType : Ansys.Mechanical.DataModel.Enums.AnalysisType | None

Gets the AnalysisType.

property Analysis.CellId : str | None

Gets the CellId.

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

Gets the list of children.

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

Gets the list of associated comments.

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

Gets the current DataModelObject’s category.

property Analysis.Electric : bool | None

Gets the Electric.

property Analysis.EnvironmentTemperature : Ansys.Core.Units.Quantity | None

Gets or sets the EnvironmentTemperature.

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

Gets the list of associated figures.

property Analysis.GenerateInputOnly : bool | None

Gets the GenerateInputOnly.

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

Gets the list of associated images.

property Analysis.InitialConditions : List[Ansys.ACT.Automation.Mechanical.InitialCondition] | None

Get InitialConditions.

property Analysis.InternalObject : Ansys.Common.Interop.DSObjectsAuto.IDSEnvironmentAuto | None

Gets the internal object. For advanced usage only.

property Analysis.PhysicsType : Ansys.Mechanical.DataModel.Enums.PhysicsType | None

Gets the PhysicsType.

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

Gets the list of properties for this object.

property Analysis.ReadOnly : bool | None

Gets or sets the ReadOnly.

property Analysis.ResultFileName : str | None

Get the full path and name of the result file.

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

Gets the Solution.

property Analysis.Structural : bool | None

Gets or sets the Structural.

property Analysis.SystemCaption : str | None

Gets the SystemCaption.

property Analysis.Thermal : bool | None

Gets the Thermal.

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

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

Method detail

Analysis.Activate()

Activate the current object.

Analysis.AddAMOverhangConstraint()

Creates a new AMOverhangConstraint

Analysis.AddAcceleration()

Creates a new Acceleration

Analysis.AddAcousticAbsorptionElement()

Creates a new AcousticAbsorptionElement

Analysis.AddAcousticAbsorptionSurface()

Creates a new AcousticAbsorptionSurface

Analysis.AddAcousticDiffuseSoundField()

Creates a new AcousticDiffuseSoundField

Analysis.AddAcousticFarFieldRadationSurface()

Creates a new AcousticFarFieldRadationSurface

Analysis.AddAcousticFreeSurface()

Creates a new AcousticFreeSurface

Analysis.AddAcousticImpedanceBoundary()

Creates a new AcousticImpedanceBoundary

Analysis.AddAcousticImpedanceSheet()

Creates a new AcousticImpedanceSheet

Analysis.AddAcousticIncidentWaveSource()

Creates a new AcousticIncidentWaveSource

Analysis.AddAcousticLowReducedFrequency()

Creates a new AcousticLowReducedFrequency

Analysis.AddAcousticMassSource()

Creates a new AcousticMassSource

Analysis.AddAcousticMassSourceRate()

Creates a new AcousticMassSourceRate

Analysis.AddAcousticPort()

Creates a new AcousticPort

Analysis.AddAcousticPortInDuct()

Creates a new AcousticPortInDuct

Analysis.AddAcousticPressure()

Creates a new AcousticPressure

Analysis.AddAcousticRadiationBoundary()

Creates a new AcousticRadiationBoundary

Analysis.AddAcousticRigidWall()

Creates a new AcousticRigidWall

Analysis.AddAcousticStaticPressure()

Creates a new AcousticStaticPressure

Analysis.AddAcousticSurfaceAcceleration()

Creates a new AcousticSurfaceAcceleration

Analysis.AddAcousticSurfaceVelocity()

Creates a new AcousticSurfaceVelocity

Analysis.AddAcousticSymmetryPlane()

Creates a new AcousticSymmetryPlane

Analysis.AddAcousticTemperature()

Creates a new child ThermalCondition.

Analysis.AddAcousticThermoViscousBLIBoundary()

Creates a new AcousticThermoViscousBLIBoundary

Analysis.AddAcousticTransferAdmittanceMatrix()

Creates a new AcousticTransferAdmittanceMatrix

Analysis.AddBearingLoad()

Creates a new BearingLoad

Analysis.AddBodyControl()

Creates a new BodyControl

Analysis.AddBoltPretension()

Creates a new BoltPretension

Analysis.AddCenterOfGravityConstraint()

Creates a new CenterOfGravityConstraint

Analysis.AddCommandSnippet()

Creates a new CommandSnippet

Analysis.AddComment()

Creates a new child Comment.

Analysis.AddComplexityIndexConstraint()

Creates a new ComplexityIndexConstraint

Analysis.AddComplianceConstraint()

Creates a new ComplianceConstraint

Analysis.AddCompressionOnlySupport()

Creates a new CompressionOnlySupport

Analysis.AddConstraintEquation()

Creates a new ConstraintEquation

Analysis.AddContactStepControl()

Creates a new ContactStepControl

Analysis.AddConvection(representation: Ansys.Mechanical.DataModel.MechanicalEnums.BoundaryConditions.DataRepresentation)

Analysis.AddCoupling()

Creates a new Coupling

Analysis.AddCriterionConstraint()

Creates a new CriterionConstraint

Analysis.AddCurrent()

Creates a new Current

Analysis.AddCyclicManufacturingConstraint()

Creates a new CyclicManufacturingConstraint

Analysis.AddCylindricalSupport()

Creates a new CylindricalSupport

Analysis.AddDetonationPoint()

Creates a new DetonationPoint

Analysis.AddDisplacement()

Creates a new Displacement

Analysis.AddDisplacementConstraint()

Creates a new DisplacementConstraint

Analysis.AddDynamicComplianceConstraint()

Creates a new DynamicComplianceConstraint

Analysis.AddEMTransducer()

Creates a new EMTransducer

Analysis.AddEarthGravity()

Creates a new EarthGravity

Analysis.AddElasticSupport()

Creates a new ElasticSupport

Analysis.AddElectricCharge()

Creates a new ElectricCharge

Analysis.AddElementBirthAndDeath()

Creates a new ElementBirthAndDeath

Analysis.AddExtrusionManufacturingConstraint()

Creates a new ExtrusionManufacturingConstraint

Analysis.AddFigure()

Creates a new child Figure.

Analysis.AddFixedRotation()

Creates a new FixedRotation

Analysis.AddFixedSupport()

Creates a new FixedSupport

Analysis.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.
    Users can apply this load to flexible-to-flexible or rigid-to-flexible contact pairs. This load object is available for static structural analysis.

Analysis.AddFluidSolidInterface()

Creates a new FluidSolidInterface

Analysis.AddForce()

Creates a new Force

Analysis.AddFrictionlessSupport()

Creates a new FrictionlessSupport

Analysis.AddGeneralizedPlaneStrain()

Creates a new GeneralizedPlaneStrain

Analysis.AddGeometryBasedAdaptivity()

Creates a new GeometryBasedAdaptivity

Analysis.AddGlobalVonMisesStressConstraint()

Creates a new GlobalVonMisesStressConstraint

Analysis.AddHeatFlow()

Creates a new HeatFlow

Analysis.AddHeatFlux()

Creates a new HeatFlux

Analysis.AddHousingConstraint()

Creates a new HousingConstraint

Analysis.AddHydrostaticPressure()

Creates a new HydrostaticPressure

Analysis.AddImage(filePath: str)

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.

Analysis.AddImpedanceBoundary()

Creates a new ImpedanceBoundary

Analysis.AddImportedCFDPressure()

Creates a new ImportedCFDPressure

Analysis.AddImportedLoadExternalData()

Creates a new Imported Load (External Data).

Analysis.AddImportedLoadFluidsResultsFile()

Creates a new Import Load for Fluids Results File.

Analysis.AddImportedLoadMAPDLResultsFile()

Creates a new Import Load for MAPDL Results File.

Analysis.AddImportedRemoteLoadsGroup()

Creates a new Import Remote Load Group.

Analysis.AddInitialVelocity()

Creates a new child Initial Velocity.

Analysis.AddInternalHeatGeneration()

Creates a new InternalHeatGeneration

Analysis.AddJointLoad()

Creates a new JointLoad

Analysis.AddLimitBoundary()

Creates a new LimitBoundary

Analysis.AddLinePressure()

Creates a new LinePressure

Analysis.AddLocalVonMisesStressConstraint()

Creates a new LocalVonMisesStressConstraint

Analysis.AddMagneticFluxParallel()

Creates a new MagneticFluxParallel

Analysis.AddMassConstraint()

Creates a new MassConstraint

Analysis.AddMassFlowRate()

Creates a new MassFlowRate

Analysis.AddMemberSizeManufacturingConstraint()

Creates a new MemberSizeManufacturingConstraint

Analysis.AddMoment()

Creates a new Moment

Analysis.AddMomentOfInertiaConstraint()

Creates a new MomentOfInertiaConstraint

Analysis.AddMorphingRegion()

Creates a new MorphingRegion

Analysis.AddNaturalFrequencyConstraint()

Creates a new NaturalFrequencyConstraint

Analysis.AddNodalDisplacement()

Creates a new NodalDisplacement

Analysis.AddNodalForce()

Creates a new NodalForce

Analysis.AddNodalOrientation()

Creates a new NodalOrientation

Analysis.AddNodalPressure()

Creates a new NodalPressure

Analysis.AddNodalRotation()

Creates a new NodalRotation

Analysis.AddNonlinearAdaptiveRegion()

Creates a new NonlinearAdaptiveRegion

Analysis.AddObjective()

Creates a new Objective

Analysis.AddOptimizationRegion()

Creates a new OptimizationRegion

Analysis.AddPSDAcceleration()

Creates a new PSDAcceleration

Analysis.AddPSDDisplacement()

Creates a new PSDDisplacement

Analysis.AddPSDGAcceleration()

Creates a new PSDGAcceleration

Analysis.AddPSDVelocity()

Creates a new PSDVelocity

Analysis.AddPatternRepetitionConstraint()

Creates a new PatternRepetitionConstraint

Analysis.AddPerfectlyInsulated()

Creates a new PerfectlyInsulated

Analysis.AddPhysicsRegion()

Creates a new PhysicsRegion

Analysis.AddPipeIdealization()

Creates a new child PipeIdealization.

Analysis.AddPipePressure()

Creates a new PipePressure

Analysis.AddPipeTemperature()

Creates a new PipeTemperature

Analysis.AddPlasticHeating()

Creates a new PlasticHeating

Analysis.AddPressure(representation: Ansys.Mechanical.DataModel.MechanicalEnums.BoundaryConditions.DataRepresentation)

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.

Analysis.AddPullOutDirectionManufacturingConstraint()

Creates a new PullOutDirectionManufacturingConstraint

Analysis.AddPythonCodeEventBased()

Creates a new PythonCodeEventBased

Analysis.AddRSAcceleration()

Creates a new RSAcceleration

Analysis.AddRSDisplacement()

Creates a new RSDisplacement

Analysis.AddRSVelocity()

Creates a new RSVelocity

Analysis.AddRadiation()

Creates a new Radiation

Analysis.AddReactionForceConstraint()

Creates a new ReactionForceConstraint

Analysis.AddRemoteDisplacement()

Creates a new RemoteDisplacement

Analysis.AddRemoteForce()

Creates a new RemoteForce

Analysis.AddRotatingForce()

Creates a new RotatingForce

Analysis.AddRotationalAcceleration()

Creates a new RotationalAcceleration

Analysis.AddRotationalVelocity()

Creates a new RotationalVelocity

Analysis.AddSimplySupported()

Creates a new SimplySupported

Analysis.AddSourceConductor()

Creates a new child SourceConductor.

Analysis.AddSubstructureGenerationCondensedPart()

Creates a new SubstructureGenerationCondensedPart

Analysis.AddSurfaceChargeDensity()

Creates a new SurfaceChargeDensity

Analysis.AddSymmetryManufacturingConstraint()

Creates a new SymmetryManufacturingConstraint

Analysis.AddSystemCouplingRegion()

Creates a new SystemCouplingRegion

Analysis.AddTemperature(representation: Ansys.Mechanical.DataModel.MechanicalEnums.BoundaryConditions.DataRepresentation)

Creates a new child Temperature.

Analysis.AddTemperatureConstraint()

Creates a new TemperatureConstraint

Analysis.AddThermalComplianceConstraint()

Creates a new ThermalComplianceConstraint

Analysis.AddThermalCondition(representation: Ansys.Mechanical.DataModel.MechanicalEnums.BoundaryConditions.DataRepresentation)

Analysis.AddUniformConstraint()

Creates a new UniformConstraint

Analysis.AddVelocity()

Creates a new Velocity

Analysis.AddViscoelasticHeating()

Creates a new ViscoelasticHeating

Analysis.AddVoltage()

Creates a new Voltage

Analysis.AddVoltageCoupling()

Creates a new Coupling

Analysis.AddVoltageGround()

Creates a new VoltageGround

Analysis.AddVolumeChargeDensity()

Creates a new VolumeChargeDensity

Analysis.AddVolumeConstraint()

Creates a new VolumeConstraint

Analysis.ClearGeneratedData()

Run the ClearGeneratedData action.

Analysis.CopyTo(other: Ansys.ACT.Automation.Mechanical.DataModelObject)

Copies all visible properties from this object to another.

Analysis.CreateAutomaticFSI()

Run the CreateAutomaticFSI action.

Analysis.CreateAutomaticFSIandFarFieldRadiationSurfaces()

Run the CreateAutomaticFSIandEquivalentSourceSurfaces action.

Analysis.CreateAutomaticFarFieldRadiationSurfaces()

Run the CreateAutomaticEquivalentSourceSurfaces action.

Analysis.CreateParameter(propName: str)

Creates a new parameter for a Property.

Analysis.Delete()

Run the Delete action.

Analysis.Duplicate()

Duplicate method.

Analysis.ExportNastranFile(exportOptions: Ansys.ACT.Automation.Mechanical.NastranExportOptions)

Export Nastran File.

Analysis.FilterBasedOnEnvironment()

Enables interface filtering that only displays model-level items applicable to
    the currently selected environment type.

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

Gets the list of children, filtered by type.

Analysis.GetParameter(propName: str)

Gets the parameter corresponding to the given property.

Analysis.GroupAllSimilarChildren()

Run the GroupAllSimilarChildren action.

Analysis.GroupSimilarObjects()

Run the GroupSimilarObjects action.

Analysis.ImportLoad(analysis: Ansys.ACT.Automation.Mechanical.Analysis)

Import Load action.

Analysis.OpenSolverFilesDirectory()

Run the OpenSolverFilesDirectory action.

Analysis.PropertyByAPIName(name: str)

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.

Analysis.PropertyByName(name: str)

Get a property by its unique name.

Analysis.RemoveParameter(propName: str)

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

Analysis.SelectBodiesWithMultiplePhysicsRegion()

Run the SelectBodiesWithMultiplePhysicsRegion action to select the bodies that belong to more than one Physics Region.

Analysis.SelectBodiesWithoutPhysicsRegion()

Run the SelectBodiesWithoutPhysicsRegion action to select the bodies that don’t belong to a Physics Region.

Analysis.Solve(wait: bool)

Run the Solve action.

Analysis.TransferDataFrom(analysis: Ansys.ACT.Automation.Mechanical.Analysis)

Transfer Data From action.

Analysis.UnlinkDataFrom(analysis: Ansys.ACT.Automation.Mechanical.Analysis)

Unlink Data From action.

Analysis.WriteSystemCouplingFiles(filename: str)

Writes the system coupling files. Usage WriteSystemCouplingFiles(“C:Desktoptempscp1.scp”);