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