Maximum Torque Transmission Capacity of Coupling under Bearing Pressure Calculator

✖Number of Bolts is simply defined as the number of bolts that are under our consideration.ⓘ Number of Bolts [n]			+10% -10%
✖Bearing Pressure on the Bush is usually in contact with a sleeve or flanged to reduce friction.ⓘ Bearing Pressure on the Bush [p_b]			+10% -10%
✖Diameter of Bush a lining or sleeve used in a machine to reduce the effect of friction on moving parts, decrease the opening.ⓘ Diameter of Bush [d_B]			+10% -10%
✖Length of Bush in the Flange is a measure of distance in a cylindrical lining designed to reduce friction and wear inside a hole, often used as a casing for a shaft, pin or hinge.ⓘ Length of Bush in the Flange [l_B]			+10% -10%
✖Pitch Circle Diameter of Bolts (PCD) is the diameter of the circle which passes through the centre of all the studs, wheel bolts or wheel rim holes.ⓘ Pitch Circle Diameter of Bolts [D₁]			+10% -10%

✖Maximum torque means the highest value of the net torque measured at full engine load.ⓘ Maximum Torque Transmission Capacity of Coupling under Bearing Pressure [T_m]

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Maximum Torque Transmission Capacity of Coupling under Bearing Pressure Solution

STEP 0: Pre-Calculation Summary

Formula Used

Maximum Torque = Number of Bolts*Bearing Pressure on the Bush*Diameter of Bush*Length of Bush in the Flange*(Pitch Circle Diameter of Bolts/2)
T_m = n*p_b*d_B*l_B*(D₁/2)
This formula uses 6 Variables

Variables Used

Maximum Torque - (Measured in Newton Meter) - Maximum torque means the highest value of the net torque measured at full engine load.
Number of Bolts - Number of Bolts is simply defined as the number of bolts that are under our consideration.
Bearing Pressure on the Bush - (Measured in Pascal) - Bearing Pressure on the Bush is usually in contact with a sleeve or flanged to reduce friction.
Diameter of Bush - (Measured in Meter) - Diameter of Bush a lining or sleeve used in a machine to reduce the effect of friction on moving parts, decrease the opening.
Length of Bush in the Flange - (Measured in Meter) - Length of Bush in the Flange is a measure of distance in a cylindrical lining designed to reduce friction and wear inside a hole, often used as a casing for a shaft, pin or hinge.
Pitch Circle Diameter of Bolts - (Measured in Meter) - Pitch Circle Diameter of Bolts (PCD) is the diameter of the circle which passes through the centre of all the studs, wheel bolts or wheel rim holes.

STEP 1: Convert Input(s) to Base Unit

Number of Bolts: 3 --> No Conversion Required
Bearing Pressure on the Bush: 0.2 Newton per Square Millimeter --> 200000 Pascal (Check conversion here)
Diameter of Bush: 57 Millimeter --> 0.057 Meter (Check conversion here)
Length of Bush in the Flange: 33 Millimeter --> 0.033 Meter (Check conversion here)
Pitch Circle Diameter of Bolts: 200 Millimeter --> 0.2 Meter (Check conversion here)

STEP 2: Evaluate Formula

Substituting Input Values in Formula

T_m = n*p_b*d_B*l_B*(D₁/2) --> 3*200000*0.057*0.033*(0.2/2)

Evaluating ... ...

T_m = 112.86

STEP 3: Convert Result to Output's Unit

112.86 Newton Meter -->112860 Newton Millimeter (Check conversion here)

FINAL ANSWER

112860 Newton Millimeter <-- Maximum Torque

(Calculation completed in 00.020 seconds)

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< Shaft Couplings Calculators

Maximum Torque Transmission Capacity of Coupling

LaTeX Go Maximum Torque = ((pi)^(2)/16)*Coefficient of Friction between Muff and Shaft*Number of Bolts*Diameter of Shaft*Diameter of Bolt*Tensile Stress

Maximum Torque for Crushing Failure of Bolt

LaTeX Go Maximum Torque = Number of Bolts*Diameter of Bolt*Thickness of Flange*Allowable Crushing Strength of the Bolt Material*(Pitch Circle Diameter of Bolts/2)

Maximum Torque for Shear Failure of Bolt

LaTeX Go Maximum Torque = (pi/4)*(Diameter of Bolt^2)*Number of Bolts*Allowable Shear Strength of Bolt Material*(Pitch Circle Diameter of Bolts/2)

Torque Transmission Capacity for Torsional Failure of Hub

LaTeX Go Maximum Torque = (pi/16)*((Diameter of Hub^4)-(Diameter of Shaft^4))/(Diameter of Hub)*Allowable Shear Strength of Coupling Material

Maximum Torque Transmission Capacity of Coupling under Bearing Pressure Formula

LaTeX Go

Maximum Torque = Number of Bolts*Bearing Pressure on the Bush*Diameter of Bush*Length of Bush in the Flange*(Pitch Circle Diameter of Bolts/2)
T_m = n*p_b*d_B*l_B*(D₁/2)

What s Pressure?

Pressure is the force applied perpendicular to the surface of an object per unit area over which that force is distributed. Gauge pressure is the pressure relative to the ambient pressure. Various units are used to express pressure. Pressure is distributed to solid boundaries or across arbitrary sections of fluid normal to these boundaries or sections at every point. It is a fundamental parameter in thermodynamics, and it is conjugate to volume.

How to Calculate Maximum Torque Transmission Capacity of Coupling under Bearing Pressure?

Maximum Torque Transmission Capacity of Coupling under Bearing Pressure calculator uses Maximum Torque = Number of Bolts*Bearing Pressure on the Bush*Diameter of Bush*Length of Bush in the Flange*(Pitch Circle Diameter of Bolts/2) to calculate the Maximum Torque, Maximum Torque Transmission Capacity of Coupling under Bearing Pressure formula is defined based on compatible distortion and balance conditions, second-order effect, length and distance of the bush with the number of bolt. Maximum Torque is denoted by T_m symbol.

How to calculate Maximum Torque Transmission Capacity of Coupling under Bearing Pressure using this online calculator? To use this online calculator for Maximum Torque Transmission Capacity of Coupling under Bearing Pressure, enter Number of Bolts (n), Bearing Pressure on the Bush (p_b), Diameter of Bush (d_B), Length of Bush in the Flange (l_B) & Pitch Circle Diameter of Bolts (D₁) and hit the calculate button. Here is how the Maximum Torque Transmission Capacity of Coupling under Bearing Pressure calculation can be explained with given input values -> 1.1E+8 = 3*200000*0.057*0.033*(0.2/2).

FAQ

What is Maximum Torque Transmission Capacity of Coupling under Bearing Pressure?

Maximum Torque Transmission Capacity of Coupling under Bearing Pressure formula is defined based on compatible distortion and balance conditions, second-order effect, length and distance of the bush with the number of bolt and is represented as T_m = n*p_b*d_B*l_B*(D₁/2) or Maximum Torque = Number of Bolts*Bearing Pressure on the Bush*Diameter of Bush*Length of Bush in the Flange*(Pitch Circle Diameter of Bolts/2). Number of Bolts is simply defined as the number of bolts that are under our consideration, Bearing Pressure on the Bush is usually in contact with a sleeve or flanged to reduce friction, Diameter of Bush a lining or sleeve used in a machine to reduce the effect of friction on moving parts, decrease the opening, Length of Bush in the Flange is a measure of distance in a cylindrical lining designed to reduce friction and wear inside a hole, often used as a casing for a shaft, pin or hinge & Pitch Circle Diameter of Bolts (PCD) is the diameter of the circle which passes through the centre of all the studs, wheel bolts or wheel rim holes.

How to calculate Maximum Torque Transmission Capacity of Coupling under Bearing Pressure?

Maximum Torque Transmission Capacity of Coupling under Bearing Pressure formula is defined based on compatible distortion and balance conditions, second-order effect, length and distance of the bush with the number of bolt is calculated using Maximum Torque = Number of Bolts*Bearing Pressure on the Bush*Diameter of Bush*Length of Bush in the Flange*(Pitch Circle Diameter of Bolts/2). To calculate Maximum Torque Transmission Capacity of Coupling under Bearing Pressure, you need Number of Bolts (n), Bearing Pressure on the Bush (p_b), Diameter of Bush (d_B), Length of Bush in the Flange (l_B) & Pitch Circle Diameter of Bolts (D₁). With our tool, you need to enter the respective value for Number of Bolts, Bearing Pressure on the Bush, Diameter of Bush, Length of Bush in the Flange & Pitch Circle Diameter of Bolts and hit the calculate button. You can also select the units (if any) for Input(s) and the Output as well.

How many ways are there to calculate Maximum Torque?

In this formula, Maximum Torque uses Number of Bolts, Bearing Pressure on the Bush, Diameter of Bush, Length of Bush in the Flange & Pitch Circle Diameter of Bolts. We can use 3 other way(s) to calculate the same, which is/are as follows -

Maximum Torque = (pi/16)*((Diameter of Hub^4)-(Diameter of Shaft^4))/(Diameter of Hub)*Allowable Shear Strength of Coupling Material
Maximum Torque = (pi/4)*(Diameter of Bolt^2)*Number of Bolts*Allowable Shear Strength of Bolt Material*(Pitch Circle Diameter of Bolts/2)
Maximum Torque = Number of Bolts*Diameter of Bolt*Thickness of Flange*Allowable Crushing Strength of the Bolt Material*(Pitch Circle Diameter of Bolts/2)

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