Class CylindricalMisalignmentCalculator

Inheritance
System.Object
System.MarshalByRefObject
SMT.MastaAPIUtility.MarshalByRefObjectPermanent
APIBase
CylindricalMisalignmentCalculator
Implements
System.IEquatable<APIBase>
Inherited Members
SMT.MastaAPIUtility.MarshalByRefObjectPermanent.InitializeLifetimeService()
Namespace: SMT.MastaAPI.NodalAnalysis
Assembly: SMT.MastaAPI.13.0.dll
Syntax
public class CylindricalMisalignmentCalculator : APIBase, IEquatable<APIBase>

Fields

_parent

Declaration
protected readonly APIBase _parent
Field Value
Type Description
APIBase

Properties

GearAEquivalentMisalignmentForRating

Misalignment of the mesh due to bending and twisting of the gears, used in the gear rating.

Measurement: VeryShortLength

Declaration
public double GearAEquivalentMisalignmentForRating { get; }
Property Value
Type Description
System.Double

GearALineFitMisalignment

Calculated by fitting a straight line through the transverse gear mesh node deflections.

Measurement: VeryShortLength

Declaration
public double GearALineFitMisalignment { get; }
Property Value
Type Description
System.Double

GearALineFitMisalignmentAngle

Calculated by fitting a straight line through the transverse gear mesh node deflections. Angular misalignment is about an axis perpendicular to the plane of action. A positive angular misalignment corresponds to a gap at the positive z end in the gear local coordinate system.

Measurement: SmallAngle

Declaration
public double GearALineFitMisalignmentAngle { get; }
Property Value
Type Description
System.Double

GearARadialAngularComponentOfRigidBodyMisalignment

Calculated from the radial and tangential twists of the gear relative to a fixed gear. Angular misalignment is about an axis perpendicular to the plane of action. A positive angular misalignment corresponds to a gap at the positive z end in the gear local coordinate system.

Measurement: SmallAngle

Declaration
public double GearARadialAngularComponentOfRigidBodyMisalignment { get; }
Property Value
Type Description
System.Double

GearARigidBodyMisalignment

Calculated from the radial and tangential twists of the gear relative to a fixed gear.

Measurement: VeryShortLength

Declaration
public double GearARigidBodyMisalignment { get; }
Property Value
Type Description
System.Double

GearARigidBodyMisalignmentAngle

Calculated from the radial and tangential twists of the gear relative to a fixed gear. Angular misalignment is about an axis perpendicular to the plane of action. A positive angular misalignment corresponds to a gap at the positive z end in the gear local coordinate system.

Measurement: SmallAngle

Declaration
public double GearARigidBodyMisalignmentAngle { get; }
Property Value
Type Description
System.Double

GearARigidBodyOutOfPlaneMisalignment

Calculated from the radial and tangential twists of the gear relative to a fixed gear.

Measurement: VeryShortLength

Declaration
public double GearARigidBodyOutOfPlaneMisalignment { get; }
Property Value
Type Description
System.Double

GearARigidBodyOutOfPlaneMisalignmentAngle

Calculated from the radial and tangential twists of the gear relative to a fixed gear. Angular misalignment is about an axis perpendicular to the plane of action. A positive angular misalignment corresponds to a gap at the positive z end in the gear local coordinate system.

Measurement: SmallAngle

Declaration
public double GearARigidBodyOutOfPlaneMisalignmentAngle { get; }
Property Value
Type Description
System.Double

GearASingleNodeMisalignmentAngleDueToTilt

Calculated directly using the deflection of the single mesh node. Angular misalignment is about an axis perpendicular to the plane of action. A positive angular misalignment corresponds to a gap at the positive z end in the gear local coordinate system.

Measurement: SmallAngle

Declaration
public double GearASingleNodeMisalignmentAngleDueToTilt { get; }
Property Value
Type Description
System.Double

GearASingleNodeMisalignmentDueToTilt

Calculated directly using the deflection of the single mesh node.

Measurement: VeryShortLength

Declaration
public double GearASingleNodeMisalignmentDueToTilt { get; }
Property Value
Type Description
System.Double

GearASingleNodeMisalignmentDueToTwist

Calculated directly using the deflection of the single mesh node.

Measurement: VeryShortLength

Declaration
public double GearASingleNodeMisalignmentDueToTwist { get; }
Property Value
Type Description
System.Double

GearATangentialAngularComponentOfRigidBodyMisalignment

Calculated from the radial and tangential twists of the gear relative to a fixed gear. Angular misalignment is about an axis perpendicular to the plane of action. A positive angular misalignment corresponds to a gap at the positive z end in the gear local coordinate system.

Measurement: SmallAngle

Declaration
public double GearATangentialAngularComponentOfRigidBodyMisalignment { get; }
Property Value
Type Description
System.Double

GearATransverseSeparations

Measurement: VeryShortLength

Declaration
public List<double> GearATransverseSeparations { get; }
Property Value
Type Description
System.Collections.Generic.List<System.Double>

GearBEquivalentMisalignmentForRating

Misalignment of the mesh due to bending and twisting of the gears, used in the gear rating.

Measurement: VeryShortLength

Declaration
public double GearBEquivalentMisalignmentForRating { get; }
Property Value
Type Description
System.Double

GearBLineFitMisalignment

Calculated by fitting a straight line through the transverse gear mesh node deflections.

Measurement: VeryShortLength

Declaration
public double GearBLineFitMisalignment { get; }
Property Value
Type Description
System.Double

GearBLineFitMisalignmentAngle

Calculated by fitting a straight line through the transverse gear mesh node deflections. Angular misalignment is about an axis perpendicular to the plane of action. A positive angular misalignment corresponds to a gap at the positive z end in the gear local coordinate system.

Measurement: SmallAngle

Declaration
public double GearBLineFitMisalignmentAngle { get; }
Property Value
Type Description
System.Double

GearBRadialAngularComponentOfRigidBodyMisalignment

Calculated from the radial and tangential twists of the gear relative to a fixed gear. Angular misalignment is about an axis perpendicular to the plane of action. A positive angular misalignment corresponds to a gap at the positive z end in the gear local coordinate system.

Measurement: SmallAngle

Declaration
public double GearBRadialAngularComponentOfRigidBodyMisalignment { get; }
Property Value
Type Description
System.Double

GearBRigidBodyMisalignment

Calculated from the radial and tangential twists of the gear relative to a fixed gear.

Measurement: VeryShortLength

Declaration
public double GearBRigidBodyMisalignment { get; }
Property Value
Type Description
System.Double

GearBRigidBodyMisalignmentAngle

Calculated from the radial and tangential twists of the gear relative to a fixed gear. Angular misalignment is about an axis perpendicular to the plane of action. A positive angular misalignment corresponds to a gap at the positive z end in the gear local coordinate system.

Measurement: SmallAngle

Declaration
public double GearBRigidBodyMisalignmentAngle { get; }
Property Value
Type Description
System.Double

GearBRigidBodyOutOfPlaneMisalignment

Calculated from the radial and tangential twists of the gear relative to a fixed gear.

Measurement: VeryShortLength

Declaration
public double GearBRigidBodyOutOfPlaneMisalignment { get; }
Property Value
Type Description
System.Double

GearBRigidBodyOutOfPlaneMisalignmentAngle

Calculated from the radial and tangential twists of the gear relative to a fixed gear. Angular misalignment is about an axis perpendicular to the plane of action. A positive angular misalignment corresponds to a gap at the positive z end in the gear local coordinate system.

Measurement: SmallAngle

Declaration
public double GearBRigidBodyOutOfPlaneMisalignmentAngle { get; }
Property Value
Type Description
System.Double

GearBSingleNodeMisalignmentAngleDueToTilt

Calculated directly using the deflection of the single mesh node. Angular misalignment is about an axis perpendicular to the plane of action. A positive angular misalignment corresponds to a gap at the positive z end in the gear local coordinate system.

Measurement: SmallAngle

Declaration
public double GearBSingleNodeMisalignmentAngleDueToTilt { get; }
Property Value
Type Description
System.Double

GearBSingleNodeMisalignmentDueToTilt

Calculated directly using the deflection of the single mesh node.

Measurement: VeryShortLength

Declaration
public double GearBSingleNodeMisalignmentDueToTilt { get; }
Property Value
Type Description
System.Double

GearBSingleNodeMisalignmentDueToTwist

Calculated directly using the deflection of the single mesh node.

Measurement: VeryShortLength

Declaration
public double GearBSingleNodeMisalignmentDueToTwist { get; }
Property Value
Type Description
System.Double

GearBTangentialAngularComponentOfRigidBodyMisalignment

Calculated from the radial and tangential twists of the gear relative to a fixed gear. Angular misalignment is about an axis perpendicular to the plane of action. A positive angular misalignment corresponds to a gap at the positive z end in the gear local coordinate system.

Measurement: SmallAngle

Declaration
public double GearBTangentialAngularComponentOfRigidBodyMisalignment { get; }
Property Value
Type Description
System.Double

GearBTransverseSeparations

Measurement: VeryShortLength

Declaration
public List<double> GearBTransverseSeparations { get; }
Property Value
Type Description
System.Collections.Generic.List<System.Double>

RigidBodyCoordinateSystemXAxis

Calculated from the radial and tangential twists of the gear relative to a fixed gear.

Declaration
public Vector3D RigidBodyCoordinateSystemXAxis { get; }
Property Value
Type Description
Vector3D

RigidBodyCoordinateSystemYAxis

Calculated from the radial and tangential twists of the gear relative to a fixed gear.

Declaration
public Vector3D RigidBodyCoordinateSystemYAxis { get; }
Property Value
Type Description
Vector3D

TotalEquivalentMisalignmentForRating

Misalignment of the mesh due to bending and twisting of the gears, used in the gear rating. This is not the same as Gear A misalignment minus Gear B misalignment, due to how it is defined in the rating.

Measurement: VeryShortLength

Declaration
public double TotalEquivalentMisalignmentForRating { get; }
Property Value
Type Description
System.Double

TotalLineFitMisalignment

Calculated by fitting a straight line through the transverse gear mesh node deflections. Total is the gear A value minus the gear B value.

Measurement: VeryShortLength

Declaration
public double TotalLineFitMisalignment { get; }
Property Value
Type Description
System.Double

TotalLineFitMisalignmentAngle

Calculated by fitting a straight line through the transverse gear mesh node deflections. Total is the gear A value minus the gear B value. Angular misalignment is about an axis perpendicular to the plane of action. A positive angular misalignment corresponds to a gap at the positive z end in the gear local coordinate system.

Measurement: SmallAngle

Declaration
public double TotalLineFitMisalignmentAngle { get; }
Property Value
Type Description
System.Double

TotalRadialAngularComponentOfRigidBodyMisalignment

Calculated from the radial and tangential twists of the gear relative to a fixed gear. Angular misalignment is about an axis perpendicular to the plane of action. A positive angular misalignment corresponds to a gap at the positive z end in the gear local coordinate system.

Measurement: SmallAngle

Declaration
public double TotalRadialAngularComponentOfRigidBodyMisalignment { get; }
Property Value
Type Description
System.Double

TotalRigidBodyMisalignment

Calculated from the radial and tangential twists of the gear relative to a fixed gear. Total is the gear A value minus the gear B value.

Measurement: VeryShortLength

Declaration
public double TotalRigidBodyMisalignment { get; }
Property Value
Type Description
System.Double

TotalRigidBodyMisalignmentAngle

Calculated from the radial and tangential twists of the gear relative to a fixed gear. Total is the gear A value minus the gear B value. Angular misalignment is about an axis perpendicular to the plane of action. A positive angular misalignment corresponds to a gap at the positive z end in the gear local coordinate system.

Measurement: SmallAngle

Declaration
public double TotalRigidBodyMisalignmentAngle { get; }
Property Value
Type Description
System.Double

TotalRigidBodyOutOfPlaneMisalignment

Calculated from the radial and tangential twists of the gear relative to a fixed gear. Total is the gear A value minus the gear B value.

Measurement: VeryShortLength

Declaration
public double TotalRigidBodyOutOfPlaneMisalignment { get; }
Property Value
Type Description
System.Double

TotalRigidBodyOutOfPlaneMisalignmentAngle

Calculated from the radial and tangential twists of the gear relative to a fixed gear. Total is the gear A value minus the gear B value. Angular misalignment is about an axis perpendicular to the plane of action. A positive angular misalignment corresponds to a gap at the positive z end in the gear local coordinate system.

Measurement: SmallAngle

Declaration
public double TotalRigidBodyOutOfPlaneMisalignmentAngle { get; }
Property Value
Type Description
System.Double

TotalSingleNodeMisalignment

Calculated directly using the deflection of the single mesh node. Total is the gear A value minus the gear B value.

Measurement: VeryShortLength

Declaration
public double TotalSingleNodeMisalignment { get; }
Property Value
Type Description
System.Double

TotalSingleNodeMisalignmentAngleDueToTilt

Calculated directly using the deflection of the single mesh node. Total is the gear A value minus the gear B value. Angular misalignment is about an axis perpendicular to the plane of action. A positive angular misalignment corresponds to a gap at the positive z end in the gear local coordinate system.

Measurement: SmallAngle

Declaration
public double TotalSingleNodeMisalignmentAngleDueToTilt { get; }
Property Value
Type Description
System.Double

TotalSingleNodeMisalignmentDueToTilt

Calculated directly using the deflection of the single mesh node. Total is the gear A value minus the gear B value.

Measurement: VeryShortLength

Declaration
public double TotalSingleNodeMisalignmentDueToTilt { get; }
Property Value
Type Description
System.Double

TotalSingleNodeMisalignmentDueToTwist

Calculated directly using the deflection of the single mesh node. Total is the gear A value minus the gear B value.

Measurement: VeryShortLength

Declaration
public double TotalSingleNodeMisalignmentDueToTwist { get; }
Property Value
Type Description
System.Double

TotalTangentialAngularComponentOfRigidBodyMisalignment

Calculated from the radial and tangential twists of the gear relative to a fixed gear. Angular misalignment is about an axis perpendicular to the plane of action. A positive angular misalignment corresponds to a gap at the positive z end in the gear local coordinate system.

Measurement: SmallAngle

Declaration
public double TotalTangentialAngularComponentOfRigidBodyMisalignment { get; }
Property Value
Type Description
System.Double

Implements

System.IEquatable<T>

Extension Methods