Total torque resisted by n number of bolts Calculator

✖The Number of Bolts is the total count of bolts used in a flanged coupling, essential for ensuring secure connections in mechanical assemblies.ⓘ Number of Bolts [n]			+10% -10%
✖The Shear Stress in Bolt is the internal force per unit area acting parallel to the surface of the bolt, crucial for assessing the bolt's structural integrity in flanged couplings.ⓘ Shear Stress in Bolt [f_s]			+10% -10%
✖The Diameter of Bolt is the measurement across the widest part of the bolt, essential for ensuring proper fit and compatibility in flanged coupling applications.ⓘ Diameter of Bolt [d_bolt]			+10% -10%
✖The Diameter of Bolt Pitch Circle is the distance across the circle that passes through the centers of the bolt holes in a flanged coupling.ⓘ Diameter of Bolt Pitch Circle [d_pitch]			+10% -10%

✖The Torque Resisted by Bolt is the rotational force that a bolt can withstand before failure, ensuring the integrity of connections in flanged couplings.ⓘ Total torque resisted by n number of bolts [T_bolt]

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Total torque resisted by n number of bolts Solution

STEP 0: Pre-Calculation Summary

Formula Used

Torque Resisted by Bolt = (Number of Bolts*Shear Stress in Bolt*pi*(Diameter of Bolt^2)*Diameter of Bolt Pitch Circle)/8
T_bolt = (n*f_s*pi*(d_bolt^2)*d_pitch)/8
This formula uses 1 Constants, 5 Variables

Constants Used

pi - Archimedes' constant Value Taken As 3.14159265358979323846264338327950288

Variables Used

Torque Resisted by Bolt - (Measured in Newton Meter) - The Torque Resisted by Bolt is the rotational force that a bolt can withstand before failure, ensuring the integrity of connections in flanged couplings.
Number of Bolts - The Number of Bolts is the total count of bolts used in a flanged coupling, essential for ensuring secure connections in mechanical assemblies.
Shear Stress in Bolt - (Measured in Pascal) - The Shear Stress in Bolt is the internal force per unit area acting parallel to the surface of the bolt, crucial for assessing the bolt's structural integrity in flanged couplings.
Diameter of Bolt - (Measured in Meter) - The Diameter of Bolt is the measurement across the widest part of the bolt, essential for ensuring proper fit and compatibility in flanged coupling applications.
Diameter of Bolt Pitch Circle - (Measured in Meter) - The Diameter of Bolt Pitch Circle is the distance across the circle that passes through the centers of the bolt holes in a flanged coupling.

STEP 1: Convert Input(s) to Base Unit

Number of Bolts: 1.001 --> No Conversion Required
Shear Stress in Bolt: 14 Newton per Square Millimeter --> 14000000 Pascal (Check conversion here)
Diameter of Bolt: 18.09 Millimeter --> 0.01809 Meter (Check conversion here)
Diameter of Bolt Pitch Circle: 27.23 Millimeter --> 0.02723 Meter (Check conversion here)

STEP 2: Evaluate Formula

Substituting Input Values in Formula

T_bolt = (n*f_s*pi*(d_bolt^2)*d_pitch)/8 --> (1.001*14000000*pi*(0.01809^2)*0.02723)/8

Evaluating ... ...

T_bolt = 49.0395836035147

STEP 3: Convert Result to Output's Unit

49.0395836035147 Newton Meter --> No Conversion Required

FINAL ANSWER

49.0395836035147 ≈ 49.03958 Newton Meter <-- Torque Resisted by Bolt

(Calculation completed in 00.004 seconds)

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Home » Physics » Strength of Materials » Torsion of Shafts And Springs » Mechanical » Flanged Coupling » Total torque resisted by n number of bolts

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National Institute Of Technology (NIT), Hamirpur

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< Flanged Coupling Calculators

Diameter of bolt given maximum load that can be resisted by one bolt

LaTeX Go Diameter of Bolt = sqrt((4*Load Resisted by One Bolt)/(pi*Shear Stress in Bolt))

Shear Stress in Bolt using Maximum Load that can be Resisted by One Bolt

LaTeX Go Shear Stress in Bolt = (4*Load Resisted by One Bolt)/(pi*(Diameter of Bolt^2))

Maximum amount of load that can be resisted by one bolt

LaTeX Go Load Resisted by One Bolt = (Shear Stress in Bolt*pi*Diameter of Bolt^2)/4

Torque Resisted by One Bolt using Load Resisted by One Bolt

LaTeX Go Torque Resisted by Bolt = Load Resisted by One Bolt*Diameter of Bolt Pitch Circle/2

Total torque resisted by n number of bolts Formula

LaTeX Go

Torque Resisted by Bolt = (Number of Bolts*Shear Stress in Bolt*pi*(Diameter of Bolt^2)*Diameter of Bolt Pitch Circle)/8
T_bolt = (n*f_s*pi*(d_bolt^2)*d_pitch)/8

What is Torque and its application?

Torque is the application of force where there is rotational motion. The most obvious example of torque in action is the operation of a crescent wrench loosening a lug nut, and a close second is a playground seesaw.

How to Calculate Total torque resisted by n number of bolts?

Total torque resisted by n number of bolts calculator uses Torque Resisted by Bolt = (Number of Bolts*Shear Stress in Bolt*pi*(Diameter of Bolt^2)*Diameter of Bolt Pitch Circle)/8 to calculate the Torque Resisted by Bolt, Total torque resisted by n number of bolts formula is defined as the measure of rotational force that opposes the motion of a flanged coupling, which is a critical component in mechanical systems, and is essential in determining the efficiency and performance of the system. Torque Resisted by Bolt is denoted by T_bolt symbol.

How to calculate Total torque resisted by n number of bolts using this online calculator? To use this online calculator for Total torque resisted by n number of bolts, enter Number of Bolts (n), Shear Stress in Bolt (f_s), Diameter of Bolt (d_bolt) & Diameter of Bolt Pitch Circle (d_pitch) and hit the calculate button. Here is how the Total torque resisted by n number of bolts calculation can be explained with given input values -> 146.9718 = (1.001*14000000*pi*(0.01809^2)*0.02723)/8.

FAQ

What is Total torque resisted by n number of bolts?

Total torque resisted by n number of bolts formula is defined as the measure of rotational force that opposes the motion of a flanged coupling, which is a critical component in mechanical systems, and is essential in determining the efficiency and performance of the system and is represented as T_bolt = (n*f_s*pi*(d_bolt^2)*d_pitch)/8 or Torque Resisted by Bolt = (Number of Bolts*Shear Stress in Bolt*pi*(Diameter of Bolt^2)*Diameter of Bolt Pitch Circle)/8. The Number of Bolts is the total count of bolts used in a flanged coupling, essential for ensuring secure connections in mechanical assemblies, The Shear Stress in Bolt is the internal force per unit area acting parallel to the surface of the bolt, crucial for assessing the bolt's structural integrity in flanged couplings, The Diameter of Bolt is the measurement across the widest part of the bolt, essential for ensuring proper fit and compatibility in flanged coupling applications & The Diameter of Bolt Pitch Circle is the distance across the circle that passes through the centers of the bolt holes in a flanged coupling.

How to calculate Total torque resisted by n number of bolts?

Total torque resisted by n number of bolts formula is defined as the measure of rotational force that opposes the motion of a flanged coupling, which is a critical component in mechanical systems, and is essential in determining the efficiency and performance of the system is calculated using Torque Resisted by Bolt = (Number of Bolts*Shear Stress in Bolt*pi*(Diameter of Bolt^2)*Diameter of Bolt Pitch Circle)/8. To calculate Total torque resisted by n number of bolts, you need Number of Bolts (n), Shear Stress in Bolt (f_s), Diameter of Bolt (d_bolt) & Diameter of Bolt Pitch Circle (d_pitch). With our tool, you need to enter the respective value for Number of Bolts, Shear Stress in Bolt, Diameter of Bolt & Diameter of Bolt Pitch Circle 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 Torque Resisted by Bolt?

In this formula, Torque Resisted by Bolt uses Number of Bolts, Shear Stress in Bolt, Diameter of Bolt & Diameter of Bolt Pitch Circle. We can use 2 other way(s) to calculate the same, which is/are as follows -

Torque Resisted by Bolt = Load Resisted by One Bolt*Diameter of Bolt Pitch Circle/2
Torque Resisted by Bolt = (Shear Stress in Bolt*pi*(Diameter of Bolt^2)*Diameter of Bolt Pitch Circle)/8

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