Load on Bearing given Moment on bearing Solution

STEP 0: Pre-Calculation Summary
Formula Used
Load Acting on Bearing = Friction moment on bearing/(Coefficient of friction for bearing*(Bore Diameter of bearing/2))
W = Mt/(μ*(d/2))
This formula uses 4 Variables
Variables Used
Load Acting on Bearing - (Measured in Newton) - Load acting on bearing is the force acting onto the bearing.
Friction moment on bearing - (Measured in Newton Meter) - Friction moment on bearing is the moment acting onto the bearing races due to the friction between their rotating surfaces.
Coefficient of friction for bearing - Coefficient of friction for bearing is the ratio defining the force that resists the motion of the oil in relation to another body in contact with it.
Bore Diameter of bearing - (Measured in Meter) - Bore Diameter of bearing is the inner diameter of a bearing, referred to as inner diameter.
STEP 1: Convert Input(s) to Base Unit
Friction moment on bearing: 120 Newton Millimeter --> 0.12 Newton Meter (Check conversion here)
Coefficient of friction for bearing: 0.0043 --> No Conversion Required
Bore Diameter of bearing: 30 Millimeter --> 0.03 Meter (Check conversion here)
STEP 2: Evaluate Formula
Substituting Input Values in Formula
W = Mt/(μ*(d/2)) --> 0.12/(0.0043*(0.03/2))
Evaluating ... ...
W = 1860.46511627907
STEP 3: Convert Result to Output's Unit
1860.46511627907 Newton --> No Conversion Required
FINAL ANSWER
1860.46511627907 1860.465 Newton <-- Load Acting on Bearing
(Calculation completed in 00.004 seconds)

Credits

Created by Vaibhav Malani
National Institute of Technology (NIT), Tiruchirapalli
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National Institute Of Technology (NIT), Hamirpur
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21 Rolling Contact Bearing Configuration Calculators

Radial Factor of Roller Contact Bearing given Race Rotation Factor
Go Radial Factor = (Equivalent dynamic load on bearing-(Thrust Factor for Bearing*Axial or thrust load acting on bearing))/(Race-rotation factor*Radial load acting on bearing)
Radial Load on Bearing given Race Rotation Factor
Go Radial load acting on bearing = (Equivalent dynamic load on bearing-(Thrust Factor for Bearing*Axial or thrust load acting on bearing))/(Radial Factor*Race-rotation factor)
Race Rotation Factor of Roller Contact Bearing
Go Race-rotation factor = (Equivalent dynamic load on bearing-(Thrust Factor for Bearing*Axial or thrust load acting on bearing))/(Radial Factor*Radial load acting on bearing)
Axial Thrust Load on Bearing given Race Rotation Factor
Go Axial or thrust load acting on bearing = (Equivalent dynamic load on bearing-(Radial Factor*Race-rotation factor*Radial load acting on bearing))/Thrust Factor for Bearing
Thrust factor of Bearing given Race Rotation Factor
Go Thrust Factor for Bearing = (Equivalent dynamic load on bearing-(Radial Factor*Race-rotation factor*Radial load acting on bearing))/Axial or thrust load acting on bearing
Radial Factor of Roller Contact Bearing
Go Radial Factor = (Equivalent dynamic load on bearing-(Thrust Factor for Bearing*Axial or thrust load acting on bearing))/(Radial load acting on bearing)
Radial Load on Bearing
Go Radial load acting on bearing = (Equivalent dynamic load on bearing-(Thrust Factor for Bearing*Axial or thrust load acting on bearing))/(Radial Factor)
Axial Thrust Load on Bearing given Thrust Factor
Go Axial or thrust load acting on bearing = (Equivalent dynamic load on bearing-(Radial Factor*Radial load acting on bearing))/Thrust Factor for Bearing
Thrust factor of Bearing
Go Thrust Factor for Bearing = (Equivalent dynamic load on bearing-(Radial Factor*Radial load acting on bearing))/Axial or thrust load acting on bearing
Number of Bearings required given Reliability
Go Number of Bearings = (log10(Reliability of Bearing System))/(log10(Reliability of Bearing))
Load on Bearing given Moment on bearing
Go Load Acting on Bearing = Friction moment on bearing/(Coefficient of friction for bearing*(Bore Diameter of bearing/2))
Coefficient of Friction of Roller Contact Bearing
Go Coefficient of friction for bearing = 2*Friction moment on bearing/(Bore Diameter of bearing*Load Acting on Bearing)
Friction Moment on Roller Contact Bearing
Go Friction moment on bearing = Coefficient of friction for bearing*Load Acting on Bearing*(Bore Diameter of bearing/2)
Bore Diameter of Bearing
Go Bore Diameter of bearing = 2*Friction moment on bearing/(Coefficient of friction for bearing*Load Acting on Bearing)
Reliability of Bearing
Go Reliability of Bearing = e^(-(Corresponding Life of Bearing/Constant a of Bearing)^Constant b of Bearing)
Train Wheel Diameter considering Bearing Life
Go Train Wheel Diameter = (1000/(pi*Rated Bearing Life))*Nominal Life in Millions of Kilometers
Nominal Life of Roller Contact Bearing
Go Nominal Life in Millions of Kilometers = Rated Bearing Life/(1000/(pi*Train Wheel Diameter))
Speed of Rotation of Bearing
Go Speed of bearing in rpm = Rated Bearing Life*(10^6)/(60*Rated Bearing Life in Hours)
Reliability of Bearing given Number of Bearings
Go Reliability of Bearing = Reliability of Bearing System^(1/Number of Bearings)
Reliability of Complete Bearing System
Go Reliability of Bearing System = Reliability of Bearing^Number of Bearings
Median Life of Roller Contact Bearing
Go Median Life of Bearing = 5*Rated Bearing Life

Load on Bearing given Moment on bearing Formula

Load Acting on Bearing = Friction moment on bearing/(Coefficient of friction for bearing*(Bore Diameter of bearing/2))
W = Mt/(μ*(d/2))

What is a rolling contact bearing?

The term rolling contact bearings refers to the wide variety of bearings that use spherical balls or some other type of roller between the stationary and the moving elements. The most common type of bearing supports a rotating shaft, resisting purely radial loads or a combination of radial and axial (thrust) loads.

How to Calculate Load on Bearing given Moment on bearing?

Load on Bearing given Moment on bearing calculator uses Load Acting on Bearing = Friction moment on bearing/(Coefficient of friction for bearing*(Bore Diameter of bearing/2)) to calculate the Load Acting on Bearing, Load on Bearing given Moment on bearing is the load or the net force acting onto the bearing. Load Acting on Bearing is denoted by W symbol.

How to calculate Load on Bearing given Moment on bearing using this online calculator? To use this online calculator for Load on Bearing given Moment on bearing, enter Friction moment on bearing (Mt), Coefficient of friction for bearing (μ) & Bore Diameter of bearing (d) and hit the calculate button. Here is how the Load on Bearing given Moment on bearing calculation can be explained with given input values -> 1860.465 = 0.12/(0.0043*(0.03/2)).

FAQ

What is Load on Bearing given Moment on bearing?
Load on Bearing given Moment on bearing is the load or the net force acting onto the bearing and is represented as W = Mt/(μ*(d/2)) or Load Acting on Bearing = Friction moment on bearing/(Coefficient of friction for bearing*(Bore Diameter of bearing/2)). Friction moment on bearing is the moment acting onto the bearing races due to the friction between their rotating surfaces, Coefficient of friction for bearing is the ratio defining the force that resists the motion of the oil in relation to another body in contact with it & Bore Diameter of bearing is the inner diameter of a bearing, referred to as inner diameter.
How to calculate Load on Bearing given Moment on bearing?
Load on Bearing given Moment on bearing is the load or the net force acting onto the bearing is calculated using Load Acting on Bearing = Friction moment on bearing/(Coefficient of friction for bearing*(Bore Diameter of bearing/2)). To calculate Load on Bearing given Moment on bearing, you need Friction moment on bearing (Mt), Coefficient of friction for bearing (μ) & Bore Diameter of bearing (d). With our tool, you need to enter the respective value for Friction moment on bearing, Coefficient of friction for bearing & Bore Diameter of bearing and hit the calculate button. You can also select the units (if any) for Input(s) and the Output as well.
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