Class PermissibleContinuousAxialLoadResults

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

Fields

_parent

Declaration
protected readonly APIBase _parent
Field Value
Type Description
APIBase

Properties

AllowableAxialLoadFactor

If the axial load exceed the radial load multiplied by this factor then this causes abnormal roller movement.

Declaration
public Overridable<double> AllowableAxialLoadFactor { get; }
Property Value
Type Description
Overridable<System.Double>

AllowableConstantAxialLoadNTN

Unlike basic road ratings based on rolling fatigue, allowable axial load is determined by heat produced on the sliding surface between the ends of the rollers and rib, seizure and wear.

Measurement: Force

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

AllowableIntermittentAxialLoadNTN

Unlike basic road ratings based on rolling fatigue, allowable axial load is determined by heat produced on the sliding surface between the ends of the rollers and rib, seizure and wear.

Measurement: Force

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

AllowableMomentaryAxialLoadNTN

Unlike basic road ratings based on rolling fatigue, allowable axial load is determined by heat produced on the sliding surface between the ends of the rollers and rib, seizure and wear.

Measurement: Force

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

AxialLoad

Measurement: Force

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

CalculationMethod

Declaration
public CylindricalRollerMaxAxialLoadMethod CalculationMethod { get; }
Property Value
Type Description
CylindricalRollerMaxAxialLoadMethod

CapacityLubricationFactorForPermissibleAxialLoadGrease

Factor that scales the basic static load rating to calculate a limit due to thermal effects on continuous axial load. For use when lubricated with grease.

Declaration
public Overridable<double> CapacityLubricationFactorForPermissibleAxialLoadGrease { get; }
Property Value
Type Description
Overridable<System.Double>

CapacityLubricationFactorForPermissibleAxialLoadOil

Factor that scales the basic static load rating to calculate a limit due to thermal effects on continuous axial load. For use when lubricated with oil.

Declaration
public Overridable<double> CapacityLubricationFactorForPermissibleAxialLoadOil { get; }
Property Value
Type Description
Overridable<System.Double>

DiameterExponentFactorForPermissibleAxialLoad

Exponent for the outer diameter to calculate a limit due to mechanical effects on continuous axial load.

Declaration
public Overridable<double> DiameterExponentFactorForPermissibleAxialLoad { get; }
Property Value
Type Description
Overridable<System.Double>

DiameterScalingFactorForPermissibleAxialLoad

Factor that scales the outer diameter to calculate a limit due to mechanical effects on continuous axial load.

Declaration
public Overridable<double> DiameterScalingFactorForPermissibleAxialLoad { get; }
Property Value
Type Description
Overridable<System.Double>

MaximumPermissibleAxialLoadSchaeffler

For bearings with rollers of the standard or TB design, the maximum permissible axial load is calculated from the rib strength and the security against wear. This must not be exceeded, even if F a per gives higher values.

Measurement: Force

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

PermissibleAxialLoadDimensionFactor

Declaration
public Overridable<double> PermissibleAxialLoadDimensionFactor { get; }
Property Value
Type Description
Overridable<System.Double>

PermissibleAxialLoadForBriefPeriodsSKF

An axial load should not exceed this value for more than brief periods (1000 revolutions) to avoid any risk of flange damage, also assuming that the bearing operating temperature does not increase by more than 5 degrees temporarily. This calculation is valid under normal operating conditions, defined as a difference of 60 degrees between operating and ambient temperatures, specific heat loss of 0.5 mW/mm^2, a viscosity ratio of at least 2, and a misalignment of less than 1 minute of arc.

Measurement: Force

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

PermissibleAxialLoadForOccasionalPeakLoadsSKF

The peak axial load should not exceed this value to avoid any risk of flange damage, and this load should only be considered suitable for occasional peak loads. This calculation is valid under normal operating conditions, defined as a difference of 60 degrees between operating and ambient temperatures, specific heat loss of 0.5 mW/mm^2, a viscosity ratio of at least 2, and a misalignment of less than 1 minute of arc.

Measurement: Force

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

PermissibleAxialLoadingNACHI

Since any axial loading on a cylindrical roller bearing is supported by a "sliding" action between the roller ends and flanges, allowable axial load is based on the limiting values of heat, seizure, and wear caused by this "sliding" contact.

Measurement: Force

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

PermissibleAxialLoadInternalDimensionFactor

Declaration
public Overridable<double> PermissibleAxialLoadInternalDimensionFactor { get; }
Property Value
Type Description
Overridable<System.Double>

PermissibleAxialLoadSchaeffler

The permissible axial load F a per can be calculated from the hydrodynamic load carrying capacity of the contact. The axial load carrying capacity of the bearing is therefore essentially dependent on the size of the sliding surfaces between the ribs and the end faces of the rolling elements, the sliding velocity at the ribs, the lubrication of the contact surfaces, tilting of the bearing, and friction.

Measurement: Force

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

PermissibleAxialLoadUnderShaftDeflectionSchaeffler

Under considerable shaft deflection, the shaft shoulder presses against the inner ring rib. In combination with the active axial load, this can lead to high alternating loading of the inner ring ribs. Under a shaft deflection of up to 2 arc minutes, the permissible axial load can be estimated.

Measurement: Force

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

PermissibleContinuousAxialLoadSKF

A continuous axial load should not exceed this value to avoid any risk of flange damage, based on a recommendation of SKF for a constantly acting load. This calculation is valid under normal operating conditions, defined as a difference of 60 degrees between operating and ambient temperatures, specific heat loss of 0.5 mW/mm^2, a viscosity ratio of at least 2, and a misalignment of less than 1 minute of arc.

Measurement: Force

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

RadialLoadLubricationFactorForPermissibleAxialLoadGrease

Factor that scales the radial load to calculate a limit due to thermal effects on continuous axial load. For use when lubricated with grease.

Declaration
public Overridable<double> RadialLoadLubricationFactorForPermissibleAxialLoadGrease { get; }
Property Value
Type Description
Overridable<System.Double>

RadialLoadLubricationFactorForPermissibleAxialLoadOil

Factor that scales the radial load to calculate a limit due to thermal effects on continuous axial load. For use when lubricated with oil.

Declaration
public Overridable<double> RadialLoadLubricationFactorForPermissibleAxialLoadOil { get; }
Property Value
Type Description
Overridable<System.Double>

SafetyFactor

Measurement: SafetyFactor

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

Implements

System.IEquatable<T>

Extension Methods