Class LoadCase
Inheritance
System.Object
System.MarshalByRefObject
SMT.MastaAPIUtility.MarshalByRefObjectPermanent
LoadCase
Inherited Members
APIBase.callPartialMethod<T>(String, (T1, T2)<Type, Object>, (T1, T2)<Type, Object>, (T1, T2)<Type, Object>, T)
SMT.MastaAPIUtility.MarshalByRefObjectPermanent.InitializeLifetimeService()
Assembly: SMT.MastaAPI.13.0.dll
Syntax
public abstract class LoadCase : Context, IEquatable<APIBase>
Properties
AdditionalAcceleration
Declaration
public AdditionalAccelerationOptions AdditionalAcceleration { get; }
Property Value
AirDensity
Declaration
public Overridable<double> AirDensity { get; set; }
Property Value
Changes how the stiffness and stresses are calculated for ball bearings.
Declaration
public BallBearingContactCalculation BallBearingContactCalculation { get; set; }
Property Value
BallBearingFrictionModelForGyroscopicMoment
Declaration
public EnumWithSelectedValue<FrictionModelForGyroscopicMoment> BallBearingFrictionModelForGyroscopicMoment { get; set; }
Property Value
CharacteristicSpecificAcousticImpedance
Measurement: SpecificAcousticImpedance
Declaration
public Overridable<double> CharacteristicSpecificAcousticImpedance { get; set; }
Property Value
EnergyConvergenceAbsoluteTolerance
Absolute tolerance on the change in energy between iterations to be considered different
Measurement: EnergySmall
Declaration
public Overridable<double> EnergyConvergenceAbsoluteTolerance { get; set; }
Property Value
ExpandGroundedNodesForThermalEffects
Determines whether grounded nodes are expanded using the specified housing material on the design or remain fixed in place when including thermal expansion.
Declaration
public Overridable<bool> ExpandGroundedNodesForThermalEffects { get; set; }
Property Value
ForceMultipleMeshNodesForUnloadedCylindricalGearMeshes
If this option is selected, a gear mesh will have multiple mesh nodes, even if it is not loaded. Normally an unloaded gear mesh would use a single mesh node for efficiency.
Declaration
public bool ForceMultipleMeshNodesForUnloadedCylindricalGearMeshes { get; set; }
Property Value
| Type |
Description |
| System.Boolean |
|
GearMeshNodesPerUnitLengthToDiameterRatio
A larger number will give more nodes. A value of zero will cause the minimum number of nodes to always be used.
Declaration
public double GearMeshNodesPerUnitLengthToDiameterRatio { get; set; }
Property Value
| Type |
Description |
| System.Double |
|
Declaration
public Overridable<int> GridRefinementFactorContactWidth { get; set; }
Property Value
GridRefinementFactorRibHeight
Declaration
public Overridable<int> GridRefinementFactorRibHeight { get; set; }
Property Value
Defines how gear wind up is considered in the calculation of hypoid gear misalignments.
Declaration
public HypoidWindUpRemovalMethod HypoidGearWindUpRemovalMethodForMisalignments { get; set; }
Property Value
IncludeBearingCentrifugal
Include centrifugal and gyroscopic effects on bearing rolling elements?
Declaration
public bool IncludeBearingCentrifugal { get; set; }
Property Value
| Type |
Description |
| System.Boolean |
|
IncludeBearingCentrifugalRingExpansion
Include the expansion of the rings due to centrifugal force? This will affect mounting and internal clearances.
Declaration
public bool IncludeBearingCentrifugalRingExpansion { get; set; }
Property Value
| Type |
Description |
| System.Boolean |
|
IncludeFittingEffects
When enabled the effect of the diameter tolerances specified on the bearing design is used in the calculation of operating internal clearance of the bearing. The actual bearing diameter used is calculated using the 'Tolerance Factor For Outer Diameters' and 'Tolerance Factor For Bores' on the load case, or, if specified, the 'Diameter Tolerance' parameters on the bearings within the load case.
Declaration
public bool IncludeFittingEffects { get; set; }
Property Value
| Type |
Description |
| System.Boolean |
|
IncludeGearBlankElasticDistortion
Includes the effect of the radial deformation of planetary gear blanks on the clearance within planetary rolling bearings. The calculation is based on Harris, T. and Kotzalas, M., Advanced Concepts of Bearing Technology, 5th Edition, 2007, Section 1.7.
Declaration
public bool IncludeGearBlankElasticDistortion { get; set; }
Property Value
| Type |
Description |
| System.Boolean |
|
IncludeGravity
Declaration
public bool IncludeGravity { get; set; }
Property Value
| Type |
Description |
| System.Boolean |
|
IncludeInnerRaceDistortionForFlexiblePinSpindle
If this option is selected, the effects of inner race deflections are taken into account in the analysis of flexible pin planetary rolling bearings.
Declaration
public bool IncludeInnerRaceDistortionForFlexiblePinSpindle { get; set; }
Property Value
| Type |
Description |
| System.Boolean |
|
IncludePlanetaryCentrifugal
Declaration
public bool IncludePlanetaryCentrifugal { get; set; }
Property Value
| Type |
Description |
| System.Boolean |
|
IncludeProfileModificationsAndManufacturingErrorsDuringCycloidalAnalysis
Declaration
public bool IncludeProfileModificationsAndManufacturingErrorsDuringCycloidalAnalysis { get; set; }
Property Value
| Type |
Description |
| System.Boolean |
|
Declaration
public Overridable<bool> IncludeRibContactAnalysis { get; set; }
Property Value
IncludeRingOvality
When enabled the effect of the 'Roundness Specification' on the bearing's inner and outer races is considered in the calculation of bearing stiffness.
Declaration
public bool IncludeRingOvality { get; set; }
Property Value
| Type |
Description |
| System.Boolean |
|
IncludeThermalExpansionEffects
When enabled the effect of the change in temperature from the 'Air (Ambient and Assembly)' temperature is used to calculate the change in shaft length and diameter, bearing radial position, bearing diameters, and cylindrical gear tooth thicknesses. For bearings and shaft/hub connectors that are grounded, the Design property 'Housing Material' is used to calculate the relative movement.
Declaration
public bool IncludeThermalExpansionEffects { get; set; }
Property Value
| Type |
Description |
| System.Boolean |
|
IncludeTiltStiffnessForBevelHypoidGears
If this option is not selected, no tilt stiffness will be applied at the mesh of Bevel/Hypoid Gears, which tends to lead to an overestimation of misalignments. This option is compatible with versions of MASTA before MASTA 7.0 and other comparable software.
Declaration
public bool IncludeTiltStiffnessForBevelHypoidGears { get; set; }
Property Value
| Type |
Description |
| System.Boolean |
|
Declaration
public PowerLoadLoadCase InputPowerLoad { get; }
Property Value
MaximumShaftSectionCrossSectionalAreaRatio
Determines the number of shaft sections a tapered shaft will be split into. The value is defined as the cross sectional area for the end with the larger value over the end with the smaller value so must be greater than 1. A smaller number results in more shaft sections.
Declaration
public double MaximumShaftSectionCrossSectionalAreaRatio { get; set; }
Property Value
| Type |
Description |
| System.Double |
|
MaximumShaftSectionLengthToDiameterRatio
Determines the number shaft sections a shaft will be split into. (Smaller number results in more shaft sections).
Declaration
public double MaximumShaftSectionLengthToDiameterRatio { get; set; }
Property Value
| Type |
Description |
| System.Double |
|
MaximumShaftSectionPolarAreaMomentOfInertiaRatio
Determines the number of shaft sections a tapered shaft will be split into. The value is defined as the polar area moment of inertia for the end with the larger value over the end with the smaller value so must be greater than 1. A smaller number results in more shaft sections.
Declaration
public double MaximumShaftSectionPolarAreaMomentOfInertiaRatio { get; set; }
Property Value
| Type |
Description |
| System.Double |
|
MaximumTranslationPerSolverStep
Controls the maximum step the System Deflection solver can take during the solve.
Measurement: ShortLength
Declaration
public Overridable<double> MaximumTranslationPerSolverStep { get; set; }
Property Value
MeshStiffnessModel
Declaration
public EnumWithSelectedValue<MeshStiffnessModel> MeshStiffnessModel { get; set; }
Property Value
MicroGeometryModelInSystemDeflection
Defines how micro geometry is considered in System Deflection, the default is to use the currently selected option on the design.
Declaration
public Overridable<MicroGeometryModel> MicroGeometryModelInSystemDeflection { get; set; }
Property Value
MinimumForceForBearingToBeConsideredLoaded
If the radial and axial forces on a bearing are smaller than this value, plus the total moment is smaller than the minimum moment, plus the safety factor is higher than the specified maximum ISO 76:2006 static safety factor, then the bearing will be considered to be unloaded, and will not be checked for convergence.
Measurement: Force
Declaration
public Overridable<double> MinimumForceForBearingToBeConsideredLoaded { get; set; }
Property Value
MinimumMomentForBearingToBeConsideredLoaded
If the total moment is smaller than this value, plus the radial and axial forces on a bearing are smaller than the minimum force, plus the safety factor is higher than the specified maximum ISO 76:2006 static safety factor, then the bearing will be considered to be unloaded, and will not be checked for convergence.
Measurement: Torque
Declaration
public Overridable<double> MinimumMomentForBearingToBeConsideredLoaded { get; set; }
Property Value
MinimumNumberOfGearMeshNodes
At least this number of nodes will be used on each gear per mesh.
Declaration
public int MinimumNumberOfGearMeshNodes { get; set; }
Property Value
| Type |
Description |
| System.Int32 |
|
MinimumPowerForGearMeshToBeLoaded
The maximum of the base radii of the gears in the mesh, and the maximum speed is used to convert this into a minimum force. If the mesh force is below this and the equivalent force from the minimum torque, then the mesh is deemed to be not transmitting torque, and is not checked for convergence.
Measurement: Power
Declaration
public Overridable<double> MinimumPowerForGearMeshToBeLoaded { get; set; }
Property Value
MinimumTorqueForGearMeshToBeLoaded
The maximum of the base radii of the gears in the mesh is used to convert this into a minimum force. If the mesh force is below this and the equivalent force from the minimum power, then the mesh is deemed to be not transmitting torque, and is not checked for convergence.
Measurement: Torque
Declaration
public Overridable<double> MinimumTorqueForGearMeshToBeLoaded { get; set; }
Property Value
ModelBearingMountingClearancesAutomatically
If a mounting clearance develops due to fitting effects, thermal expansion, or specified mounting clearance, then MASTA will automatically insert a clearance between the bearing and relevant mounting. If this option is disabled and there would otherwise have been a clearance, then instead of a clearance bearing the mounting will have no axial stiffness. In this case the axial mounting points will provide any axial stiffness.
Declaration
public bool ModelBearingMountingClearancesAutomatically { get; set; }
Property Value
| Type |
Description |
| System.Boolean |
|
Declaration
public Overridable<int> NumberOfGridPointsAcrossRibContactWidth { get; set; }
Property Value
NumberOfGridPointsAcrossRibHeight
Declaration
public Overridable<int> NumberOfGridPointsAcrossRibHeight { get; set; }
Property Value
NumberOfStripsForRollerCalculation
Declaration
public Overridable<int> NumberOfStripsForRollerCalculation { get; set; }
Property Value
OutputPowerLoad
Declaration
public PowerLoadLoadCase OutputPowerLoad { get; }
Property Value
Declaration
public ParametricStudyToolOptions ParametricStudyToolOptions { get; }
Property Value
PeakLoadFactorForShafts
This scales the maximum stress of a shaft in the calculation of static safety factors in the AGMA 6001/6101-E08 shaft fatigue method. AGMA 6001/6101-E08 specifies a value of 3 if worm gears are present and a value of 2 otherwise. We recommend that a peak load case with a larger torque be used instead.
Declaration
public double PeakLoadFactorForShafts { get; set; }
Property Value
| Type |
Description |
| System.Double |
|
PowerLoads
Declaration
public ReadOnlyCollection<PowerLoadLoadCase> PowerLoads { get; }
Property Value
| Type |
Description |
| System.Collections.ObjectModel.ReadOnlyCollection<PowerLoadLoadCase> |
|
Declaration
public Overridable<bool> RefineGridAroundContactPoint { get; set; }
Property Value
RelativeToleranceForConvergence
Used when running analyses to determine if components have converged
Measurement: Percentage
Declaration
public Overridable<double> RelativeToleranceForConvergence { get; set; }
Property Value
RingOvalityScaling
Factor with which to scale the deviations of the bearing races.
Declaration
public double RingOvalityScaling { get; set; }
Property Value
| Type |
Description |
| System.Double |
|
RollerAnalysisMethod
Declaration
public RollerAnalysisMethod RollerAnalysisMethod { get; set; }
Property Value
SetFirstElementAngleToLoadDirection
Declaration
public Overridable<bool> SetFirstElementAngleToLoadDirection { get; set; }
Property Value
ShearAreaFactorMethod
Affects the influence of the shear stiffness in the Timoshenko beam element model used for shafts that are not replaced by FE parts.
Declaration
public EnumWithSelectedValue<ShearAreaFactorMethod> ShearAreaFactorMethod { get; set; }
Property Value
SpeedOfSound
Declaration
public Overridable<double> SpeedOfSound { get; set; }
Property Value
SplineRigidBondDetailedConnectionNodesPerUnitLengthToDiameterRatio
A larger number will give more nodes.
Declaration
public double SplineRigidBondDetailedConnectionNodesPerUnitLengthToDiameterRatio { get; set; }
Property Value
| Type |
Description |
| System.Double |
|
StressConcentrationMethodForRating
Method used for the inclusion of edge stress concentrations in the ISO/TS 16281:2008 rating, see section 5.3.3.
Declaration
public EnumWithSelectedValue<StressConcentrationMethod> StressConcentrationMethodForRating { get; set; }
Property Value
Temperatures
Declaration
public TransmissionTemperatureSet Temperatures { get; }
Property Value
ToleranceFactorForAxialInternalClearances
A value of 0 gives the minimum tolerable value and a value of 1 gives the maximum tolerable value of clearance.
Declaration
public double ToleranceFactorForAxialInternalClearances { get; set; }
Property Value
| Type |
Description |
| System.Double |
|
ToleranceFactorForInnerFit
A value of 0 gives the minimum interference, while a value of 1 gives the maximum interference.
Declaration
public double ToleranceFactorForInnerFit { get; set; }
Property Value
| Type |
Description |
| System.Double |
|
ToleranceFactorForInnerMountingSleeveBore
A value of 0 gives the minimum tolerable value and a value of 1 gives the maximum tolerable value of diameter.
Declaration
public Overridable<double> ToleranceFactorForInnerMountingSleeveBore { get; set; }
Property Value
ToleranceFactorForInnerMountingSleeveOuterDiameter
A value of 0 gives the minimum tolerable value and a value of 1 gives the maximum tolerable value of diameter.
Declaration
public Overridable<double> ToleranceFactorForInnerMountingSleeveOuterDiameter { get; set; }
Property Value
ToleranceFactorForInnerRing
A value of 0 gives the minimum tolerable value and a value of 1 gives the maximum tolerable value of diameter.
Declaration
public Overridable<double> ToleranceFactorForInnerRing { get; set; }
Property Value
ToleranceFactorForInnerSupport
A value of 0 gives the minimum tolerable value and a value of 1 gives the maximum tolerable value of diameter.
Declaration
public Overridable<double> ToleranceFactorForInnerSupport { get; set; }
Property Value
ToleranceFactorForOuterFit
A value of 0 gives the minimum interference, while a value of 1 gives the maximum interference.
Declaration
public double ToleranceFactorForOuterFit { get; set; }
Property Value
| Type |
Description |
| System.Double |
|
ToleranceFactorForOuterMountingSleeveBore
A value of 0 gives the minimum tolerable value and a value of 1 gives the maximum tolerable value of diameter.
Declaration
public Overridable<double> ToleranceFactorForOuterMountingSleeveBore { get; set; }
Property Value
ToleranceFactorForOuterMountingSleeveOuterDiameter
A value of 0 gives the minimum tolerable value and a value of 1 gives the maximum tolerable value of diameter.
Declaration
public Overridable<double> ToleranceFactorForOuterMountingSleeveOuterDiameter { get; set; }
Property Value
ToleranceFactorForOuterRing
A value of 0 gives the minimum tolerable value and a value of 1 gives the maximum tolerable value of diameter.
Declaration
public Overridable<double> ToleranceFactorForOuterRing { get; set; }
Property Value
ToleranceFactorForOuterSupport
A value of 0 gives the minimum tolerable value and a value of 1 gives the maximum tolerable value of diameter.
Declaration
public Overridable<double> ToleranceFactorForOuterSupport { get; set; }
Property Value
ToleranceFactorForRadialInternalClearances
A value of 0 gives the minimum tolerable value and a value of 1 gives the maximum tolerable value of clearance.
Declaration
public double ToleranceFactorForRadialInternalClearances { get; set; }
Property Value
| Type |
Description |
| System.Double |
|
TransmissionEfficiencySettings
Declaration
public TransmissionEfficiencySettings TransmissionEfficiencySettings { get; }
Property Value
UseDefaultTemperatures
Declaration
public bool UseDefaultTemperatures { get; set; }
Property Value
| Type |
Description |
| System.Boolean |
|
UseNodePerBearingRowInner
Declaration
public bool UseNodePerBearingRowInner { get; set; }
Property Value
| Type |
Description |
| System.Boolean |
|
UseNodePerBearingRowOuter
Declaration
public bool UseNodePerBearingRowOuter { get; set; }
Property Value
| Type |
Description |
| System.Boolean |
|
UseSingleNodeForCylindricalGearMeshes
If this option is selected, a single node is used with stiffness between the gears both in the line of action and opposing tilt of the gear mesh. Otherwise the mesh model consists of a number of pairs of mesh nodes with stiffness between each pair in the line of action. The use of multiple mesh nodes allows more complex bending of the gear to be represented and is required to include the effect of gear twist in the advanced system deflection module.
Declaration
public bool UseSingleNodeForCylindricalGearMeshes { get; set; }
Property Value
| Type |
Description |
| System.Boolean |
|
UseSingleNodeForSplineRigidBondDetailedConnectionConnections
If this option is not selected, tilt stiffness is not included for splines and detailed splines/interference fits. Tilt stiffness is always included for rigid bonds. When connecting to an FE Part a single node is always used and tilt stiffness is included.
Declaration
public bool UseSingleNodeForSplineRigidBondDetailedConnectionConnections { get; set; }
Property Value
| Type |
Description |
| System.Boolean |
|
Methods
Delete()
Declaration
Declaration
public AbstractShaftToMountableComponentConnectionLoadCase InputsFor(AbstractShaftToMountableComponentConnection designEntity)
Parameters
Returns
Declaration
public BeltConnectionLoadCase InputsFor(BeltConnection designEntity)
Parameters
Returns
Declaration
public CoaxialConnectionLoadCase InputsFor(CoaxialConnection designEntity)
Parameters
Returns
Declaration
public ConnectionLoadCase InputsFor(Connection designEntity)
Parameters
Returns
Declaration
public ClutchConnectionLoadCase InputsFor(ClutchConnection designEntity)
Parameters
Returns
Declaration
public ConceptCouplingConnectionLoadCase InputsFor(ConceptCouplingConnection designEntity)
Parameters
Returns
Declaration
public CouplingConnectionLoadCase InputsFor(CouplingConnection designEntity)
Parameters
Returns
Declaration
public PartToPartShearCouplingConnectionLoadCase InputsFor(PartToPartShearCouplingConnection designEntity)
Parameters
Returns
Declaration
public SpringDamperConnectionLoadCase InputsFor(SpringDamperConnection designEntity)
Parameters
Returns
Declaration
public TorqueConverterConnectionLoadCase InputsFor(TorqueConverterConnection designEntity)
Parameters
Returns
Declaration
public CVTBeltConnectionLoadCase InputsFor(CVTBeltConnection designEntity)
Parameters
Returns
Declaration
public CycloidalDiscCentralBearingConnectionLoadCase InputsFor(CycloidalDiscCentralBearingConnection designEntity)
Parameters
Returns
Declaration
public CycloidalDiscPlanetaryBearingConnectionLoadCase InputsFor(CycloidalDiscPlanetaryBearingConnection designEntity)
Parameters
Returns
Declaration
public RingPinsToDiscConnectionLoadCase InputsFor(RingPinsToDiscConnection designEntity)
Parameters
Returns
Declaration
public AGMAGleasonConicalGearMeshLoadCase InputsFor(AGMAGleasonConicalGearMesh designEntity)
Parameters
Returns
Declaration
public BevelDifferentialGearMeshLoadCase InputsFor(BevelDifferentialGearMesh designEntity)
Parameters
Returns
Declaration
public BevelGearMeshLoadCase InputsFor(BevelGearMesh designEntity)
Parameters
Returns
Declaration
public ConceptGearMeshLoadCase InputsFor(ConceptGearMesh designEntity)
Parameters
Returns
Declaration
public ConicalGearMeshLoadCase InputsFor(ConicalGearMesh designEntity)
Parameters
Returns
Declaration
public CylindricalGearMeshLoadCase InputsFor(CylindricalGearMesh designEntity)
Parameters
Returns
Declaration
public FaceGearMeshLoadCase InputsFor(FaceGearMesh designEntity)
Parameters
Returns
Declaration
public GearMeshLoadCase InputsFor(GearMesh designEntity)
Parameters
| Type |
Name |
Description |
| GearMesh |
designEntity |
|
Returns
Declaration
public HypoidGearMeshLoadCase InputsFor(HypoidGearMesh designEntity)
Parameters
Returns
Declaration
public KlingelnbergCycloPalloidConicalGearMeshLoadCase InputsFor(KlingelnbergCycloPalloidConicalGearMesh designEntity)
Parameters
Returns
Declaration
public KlingelnbergCycloPalloidHypoidGearMeshLoadCase InputsFor(KlingelnbergCycloPalloidHypoidGearMesh designEntity)
Parameters
Returns
Declaration
public KlingelnbergCycloPalloidSpiralBevelGearMeshLoadCase InputsFor(KlingelnbergCycloPalloidSpiralBevelGearMesh designEntity)
Parameters
Returns
Declaration
public SpiralBevelGearMeshLoadCase InputsFor(SpiralBevelGearMesh designEntity)
Parameters
Returns
Declaration
public StraightBevelDiffGearMeshLoadCase InputsFor(StraightBevelDiffGearMesh designEntity)
Parameters
Returns
Declaration
public StraightBevelGearMeshLoadCase InputsFor(StraightBevelGearMesh designEntity)
Parameters
Returns
Declaration
public WormGearMeshLoadCase InputsFor(WormGearMesh designEntity)
Parameters
Returns
Declaration
public ZerolBevelGearMeshLoadCase InputsFor(ZerolBevelGearMesh designEntity)
Parameters
Returns
Declaration
public InterMountableComponentConnectionLoadCase InputsFor(InterMountableComponentConnection designEntity)
Parameters
Returns
Declaration
public PlanetaryConnectionLoadCase InputsFor(PlanetaryConnection designEntity)
Parameters
Returns
Declaration
public RollingRingConnectionLoadCase InputsFor(RollingRingConnection designEntity)
Parameters
Returns
Declaration
public ShaftToMountableComponentConnectionLoadCase InputsFor(ShaftToMountableComponentConnection designEntity)
Parameters
Returns
Declaration
public AbstractAssemblyLoadCase InputsFor(AbstractAssembly designEntity)
Parameters
Returns
Declaration
public AbstractShaftLoadCase InputsFor(AbstractShaft designEntity)
Parameters
Returns
Declaration
public AbstractShaftOrHousingLoadCase InputsFor(AbstractShaftOrHousing designEntity)
Parameters
Returns
Declaration
public AssemblyLoadCase InputsFor(Assembly designEntity)
Parameters
| Type |
Name |
Description |
| Assembly |
designEntity |
|
Returns
Declaration
public BearingLoadCase InputsFor(Bearing designEntity)
Parameters
| Type |
Name |
Description |
| Bearing |
designEntity |
|
Returns
Declaration
public BoltLoadCase InputsFor(Bolt designEntity)
Parameters
| Type |
Name |
Description |
| Bolt |
designEntity |
|
Returns
Declaration
public BoltedJointLoadCase InputsFor(BoltedJoint designEntity)
Parameters
Returns
Declaration
public ComponentLoadCase InputsFor(Component designEntity)
Parameters
Returns
Declaration
public ConnectorLoadCase InputsFor(Connector designEntity)
Parameters
Returns
Declaration
public BeltDriveLoadCase InputsFor(BeltDrive designEntity)
Parameters
Returns
Declaration
public ClutchLoadCase InputsFor(Clutch designEntity)
Parameters
| Type |
Name |
Description |
| Clutch |
designEntity |
|
Returns
Declaration
public ClutchHalfLoadCase InputsFor(ClutchHalf designEntity)
Parameters
Returns
Declaration
public ConceptCouplingLoadCase InputsFor(ConceptCoupling designEntity)
Parameters
Returns
Declaration
public ConceptCouplingHalfLoadCase InputsFor(ConceptCouplingHalf designEntity)
Parameters
Returns
Declaration
public CouplingLoadCase InputsFor(Coupling designEntity)
Parameters
| Type |
Name |
Description |
| Coupling |
designEntity |
|
Returns
Declaration
public CouplingHalfLoadCase InputsFor(CouplingHalf designEntity)
Parameters
Returns
Declaration
public CVTLoadCase InputsFor(CVT designEntity)
Parameters
| Type |
Name |
Description |
| CVT |
designEntity |
|
Returns
Declaration
public CVTPulleyLoadCase InputsFor(CVTPulley designEntity)
Parameters
Returns
Declaration
public PartToPartShearCouplingLoadCase InputsFor(PartToPartShearCoupling designEntity)
Parameters
Returns
Declaration
public PartToPartShearCouplingHalfLoadCase InputsFor(PartToPartShearCouplingHalf designEntity)
Parameters
Returns
Declaration
public PulleyLoadCase InputsFor(Pulley designEntity)
Parameters
| Type |
Name |
Description |
| Pulley |
designEntity |
|
Returns
Declaration
public RollingRingLoadCase InputsFor(RollingRing designEntity)
Parameters
Returns
Declaration
public RollingRingAssemblyLoadCase InputsFor(RollingRingAssembly designEntity)
Parameters
Returns
Declaration
public ShaftHubConnectionLoadCase InputsFor(ShaftHubConnection designEntity)
Parameters
Returns
Declaration
public SpringDamperLoadCase InputsFor(SpringDamper designEntity)
Parameters
Returns
Declaration
public SpringDamperHalfLoadCase InputsFor(SpringDamperHalf designEntity)
Parameters
Returns
Declaration
public SynchroniserLoadCase InputsFor(Synchroniser designEntity)
Parameters
Returns
Declaration
public SynchroniserHalfLoadCase InputsFor(SynchroniserHalf designEntity)
Parameters
Returns
Declaration
public SynchroniserPartLoadCase InputsFor(SynchroniserPart designEntity)
Parameters
Returns
Declaration
public SynchroniserSleeveLoadCase InputsFor(SynchroniserSleeve designEntity)
Parameters
Returns
Declaration
public TorqueConverterLoadCase InputsFor(TorqueConverter designEntity)
Parameters
Returns
Declaration
public TorqueConverterPumpLoadCase InputsFor(TorqueConverterPump designEntity)
Parameters
Returns
Declaration
public TorqueConverterTurbineLoadCase InputsFor(TorqueConverterTurbine designEntity)
Parameters
Returns
Declaration
public CycloidalAssemblyLoadCase InputsFor(CycloidalAssembly designEntity)
Parameters
Returns
Declaration
public CycloidalDiscLoadCase InputsFor(CycloidalDisc designEntity)
Parameters
Returns
Declaration
public RingPinsLoadCase InputsFor(RingPins designEntity)
Parameters
| Type |
Name |
Description |
| RingPins |
designEntity |
|
Returns
Declaration
public DatumLoadCase InputsFor(Datum designEntity)
Parameters
| Type |
Name |
Description |
| Datum |
designEntity |
|
Returns
Declaration
public ExternalCADModelLoadCase InputsFor(ExternalCADModel designEntity)
Parameters
Returns
Declaration
public FEPartLoadCase InputsFor(FEPart designEntity)
Parameters
| Type |
Name |
Description |
| FEPart |
designEntity |
|
Returns
Declaration
public FlexiblePinAssemblyLoadCase InputsFor(FlexiblePinAssembly designEntity)
Parameters
Returns
Declaration
public AGMAGleasonConicalGearLoadCase InputsFor(AGMAGleasonConicalGear designEntity)
Parameters
Returns
Declaration
public AGMAGleasonConicalGearSetLoadCase InputsFor(AGMAGleasonConicalGearSet designEntity)
Parameters
Returns
Declaration
public BevelDifferentialGearLoadCase InputsFor(BevelDifferentialGear designEntity)
Parameters
Returns
Declaration
public BevelDifferentialGearSetLoadCase InputsFor(BevelDifferentialGearSet designEntity)
Parameters
Returns
Declaration
public BevelDifferentialPlanetGearLoadCase InputsFor(BevelDifferentialPlanetGear designEntity)
Parameters
Returns
Declaration
public BevelDifferentialSunGearLoadCase InputsFor(BevelDifferentialSunGear designEntity)
Parameters
Returns
Declaration
public BevelGearLoadCase InputsFor(BevelGear designEntity)
Parameters
Returns
Declaration
public BevelGearSetLoadCase InputsFor(BevelGearSet designEntity)
Parameters
Returns
Declaration
public ConceptGearLoadCase InputsFor(ConceptGear designEntity)
Parameters
Returns
Declaration
public ConceptGearSetLoadCase InputsFor(ConceptGearSet designEntity)
Parameters
Returns
Declaration
public ConicalGearLoadCase InputsFor(ConicalGear designEntity)
Parameters
Returns
Declaration
public ConicalGearSetLoadCase InputsFor(ConicalGearSet designEntity)
Parameters
Returns
Declaration
public CylindricalGearLoadCase InputsFor(CylindricalGear designEntity)
Parameters
Returns
Declaration
public CylindricalGearSetLoadCase InputsFor(CylindricalGearSet designEntity)
Parameters
Returns
Declaration
public CylindricalPlanetGearLoadCase InputsFor(CylindricalPlanetGear designEntity)
Parameters
Returns
Declaration
public FaceGearLoadCase InputsFor(FaceGear designEntity)
Parameters
| Type |
Name |
Description |
| FaceGear |
designEntity |
|
Returns
Declaration
public FaceGearSetLoadCase InputsFor(FaceGearSet designEntity)
Parameters
Returns
Declaration
public GearLoadCase InputsFor(Gear designEntity)
Parameters
| Type |
Name |
Description |
| Gear |
designEntity |
|
Returns
Declaration
public GearSetLoadCase InputsFor(GearSet designEntity)
Parameters
| Type |
Name |
Description |
| GearSet |
designEntity |
|
Returns
Declaration
public HypoidGearLoadCase InputsFor(HypoidGear designEntity)
Parameters
Returns
Declaration
public HypoidGearSetLoadCase InputsFor(HypoidGearSet designEntity)
Parameters
Returns
Declaration
public KlingelnbergCycloPalloidConicalGearLoadCase InputsFor(KlingelnbergCycloPalloidConicalGear designEntity)
Parameters
Returns
Declaration
public KlingelnbergCycloPalloidConicalGearSetLoadCase InputsFor(KlingelnbergCycloPalloidConicalGearSet designEntity)
Parameters
Returns
Declaration
public KlingelnbergCycloPalloidHypoidGearLoadCase InputsFor(KlingelnbergCycloPalloidHypoidGear designEntity)
Parameters
Returns
Declaration
public KlingelnbergCycloPalloidHypoidGearSetLoadCase InputsFor(KlingelnbergCycloPalloidHypoidGearSet designEntity)
Parameters
Returns
Declaration
public KlingelnbergCycloPalloidSpiralBevelGearLoadCase InputsFor(KlingelnbergCycloPalloidSpiralBevelGear designEntity)
Parameters
Returns
Declaration
public KlingelnbergCycloPalloidSpiralBevelGearSetLoadCase InputsFor(KlingelnbergCycloPalloidSpiralBevelGearSet designEntity)
Parameters
Returns
Declaration
public PlanetaryGearSetLoadCase InputsFor(PlanetaryGearSet designEntity)
Parameters
Returns
Declaration
public SpiralBevelGearLoadCase InputsFor(SpiralBevelGear designEntity)
Parameters
Returns
Declaration
public SpiralBevelGearSetLoadCase InputsFor(SpiralBevelGearSet designEntity)
Parameters
Returns
Declaration
public StraightBevelDiffGearLoadCase InputsFor(StraightBevelDiffGear designEntity)
Parameters
Returns
Declaration
public StraightBevelDiffGearSetLoadCase InputsFor(StraightBevelDiffGearSet designEntity)
Parameters
Returns
Declaration
public StraightBevelGearLoadCase InputsFor(StraightBevelGear designEntity)
Parameters
Returns
Declaration
public StraightBevelGearSetLoadCase InputsFor(StraightBevelGearSet designEntity)
Parameters
Returns
Declaration
public StraightBevelPlanetGearLoadCase InputsFor(StraightBevelPlanetGear designEntity)
Parameters
Returns
Declaration
public StraightBevelSunGearLoadCase InputsFor(StraightBevelSunGear designEntity)
Parameters
Returns
Declaration
public WormGearLoadCase InputsFor(WormGear designEntity)
Parameters
| Type |
Name |
Description |
| WormGear |
designEntity |
|
Returns
Declaration
public WormGearSetLoadCase InputsFor(WormGearSet designEntity)
Parameters
Returns
Declaration
public ZerolBevelGearLoadCase InputsFor(ZerolBevelGear designEntity)
Parameters
Returns
Declaration
public ZerolBevelGearSetLoadCase InputsFor(ZerolBevelGearSet designEntity)
Parameters
Returns
Declaration
public GuideDxfModelLoadCase InputsFor(GuideDxfModel designEntity)
Parameters
Returns
Declaration
public MassDiscLoadCase InputsFor(MassDisc designEntity)
Parameters
| Type |
Name |
Description |
| MassDisc |
designEntity |
|
Returns
Declaration
public MeasurementComponentLoadCase InputsFor(MeasurementComponent designEntity)
Parameters
Returns
Declaration
public MountableComponentLoadCase InputsFor(MountableComponent designEntity)
Parameters
Returns
Declaration
public OilSealLoadCase InputsFor(OilSeal designEntity)
Parameters
| Type |
Name |
Description |
| OilSeal |
designEntity |
|
Returns
Declaration
public PartLoadCase InputsFor(Part designEntity)
Parameters
| Type |
Name |
Description |
| Part |
designEntity |
|
Returns
Declaration
public PlanetCarrierLoadCase InputsFor(PlanetCarrier designEntity)
Parameters
Returns
Declaration
public PointLoadLoadCase InputsFor(PointLoad designEntity)
Parameters
Returns
Declaration
public PowerLoadLoadCase InputsFor(PowerLoad designEntity)
Parameters
Returns
Declaration
public RootAssemblyLoadCase InputsFor(RootAssembly designEntity)
Parameters
Returns
Declaration
public ShaftLoadCase InputsFor(Shaft designEntity)
Parameters
| Type |
Name |
Description |
| Shaft |
designEntity |
|
Returns
Declaration
public SpecialisedAssemblyLoadCase InputsFor(SpecialisedAssembly designEntity)
Parameters
Returns
Declaration
public UnbalancedMassLoadCase InputsFor(UnbalancedMass designEntity)
Parameters
Returns
Declaration
public VirtualComponentLoadCase InputsFor(VirtualComponent designEntity)
Parameters
Returns
Implements
System.IEquatable<T>
Extension Methods