Force on Cotter given Shear Stress in Cotter Solution

STEP 0: Pre-Calculation Summary
Formula Used
Load on Cotter Joint = 2*Thickness of Cotter*Mean Width of Cotter*Shear Stress in Cotter
L = 2*tc*b*τco
This formula uses 4 Variables
Variables Used
Load on Cotter Joint - (Measured in Newton) - Load on cotter joint is basically the amount of load/force any part or joint, can bear or is acted upon or exerts.
Thickness of Cotter - (Measured in Meter) - Thickness of Cotter is the measure of how much broad is the cotter in direction perpendicular to axial force.
Mean Width of Cotter - (Measured in Meter) - The mean Width of Cotter is defined as the average width of the cotter of a cotter joint.
Shear Stress in Cotter - (Measured in Pascal) - Shear Stress in Cotter is the amount of stress (cause deformation by slippage along a plane parallel to the imposed stress) generated into the cotter due to the shear force acting on it.
STEP 1: Convert Input(s) to Base Unit
Thickness of Cotter: 21.478 Millimeter --> 0.021478 Meter (Check conversion ​here)
Mean Width of Cotter: 48.5 Millimeter --> 0.0485 Meter (Check conversion ​here)
Shear Stress in Cotter: 24 Newton per Square Millimeter --> 24000000 Pascal (Check conversion ​here)
STEP 2: Evaluate Formula
Substituting Input Values in Formula
L = 2*tc*b*τco --> 2*0.021478*0.0485*24000000
Evaluating ... ...
L = 50000.784
STEP 3: Convert Result to Output's Unit
50000.784 Newton --> No Conversion Required
FINAL ANSWER
50000.784 50000.78 Newton <-- Load on Cotter Joint
(Calculation completed in 00.823 seconds)

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Shri Govindram Seksaria Institute of Technology and Science (SGSITS ), Indore
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Forces and Loads on Joint Calculators

Load Taken by Socket of Cotter Joint given Tensile Stress in Socket
​ LaTeX ​ Go Load on Cotter Joint = Tensile Stress In Socket*(pi/4*(Outside Diameter of Socket^2-Diameter of Spigot^2)-Thickness of Cotter*(Outside Diameter of Socket-Diameter of Spigot))
Maximum Load taken by Cotter Joint given Spigot Diameter, Thickness and Stress
​ LaTeX ​ Go Load on Cotter Joint = (pi/4*Diameter of Spigot^2-Diameter of Spigot*Thickness of Cotter)*Tensile Stress In Spigot
Load Taken by Cotter Joint Rod given Tensile Stress in Rod
​ LaTeX ​ Go Load on Cotter Joint = (pi*Diameter of Rod of Cotter Joint^2*Tensile Stress in Cotter Joint Rod)/4
Force on Cotter given Shear Stress in Cotter
​ LaTeX ​ Go Load on Cotter Joint = 2*Thickness of Cotter*Mean Width of Cotter*Shear Stress in Cotter

Force on Cotter given Shear Stress in Cotter Formula

​LaTeX ​Go
Load on Cotter Joint = 2*Thickness of Cotter*Mean Width of Cotter*Shear Stress in Cotter
L = 2*tc*b*τco

What is a spigot?

Spigot is the male part of the cotter joint, it has a rectangular slot for passing the cotter through it. The spigot has a collar that rests against the socket end.

How to Calculate Force on Cotter given Shear Stress in Cotter?

Force on Cotter given Shear Stress in Cotter calculator uses Load on Cotter Joint = 2*Thickness of Cotter*Mean Width of Cotter*Shear Stress in Cotter to calculate the Load on Cotter Joint, The Force on cotter given shear stress in cotter is the amount of shearing force acting onto the cotter of the cotter joint at a particular shear stress generated in it. Load on Cotter Joint is denoted by L symbol.

How to calculate Force on Cotter given Shear Stress in Cotter using this online calculator? To use this online calculator for Force on Cotter given Shear Stress in Cotter, enter Thickness of Cotter (tc), Mean Width of Cotter (b) & Shear Stress in Cotter co) and hit the calculate button. Here is how the Force on Cotter given Shear Stress in Cotter calculation can be explained with given input values -> 37946.4 = 2*0.021478*0.0485*24000000.

FAQ

What is Force on Cotter given Shear Stress in Cotter?
The Force on cotter given shear stress in cotter is the amount of shearing force acting onto the cotter of the cotter joint at a particular shear stress generated in it and is represented as L = 2*tc*b*τco or Load on Cotter Joint = 2*Thickness of Cotter*Mean Width of Cotter*Shear Stress in Cotter. Thickness of Cotter is the measure of how much broad is the cotter in direction perpendicular to axial force, The mean Width of Cotter is defined as the average width of the cotter of a cotter joint & Shear Stress in Cotter is the amount of stress (cause deformation by slippage along a plane parallel to the imposed stress) generated into the cotter due to the shear force acting on it.
How to calculate Force on Cotter given Shear Stress in Cotter?
The Force on cotter given shear stress in cotter is the amount of shearing force acting onto the cotter of the cotter joint at a particular shear stress generated in it is calculated using Load on Cotter Joint = 2*Thickness of Cotter*Mean Width of Cotter*Shear Stress in Cotter. To calculate Force on Cotter given Shear Stress in Cotter, you need Thickness of Cotter (tc), Mean Width of Cotter (b) & Shear Stress in Cotter co). With our tool, you need to enter the respective value for Thickness of Cotter, Mean Width of Cotter & Shear Stress in Cotter 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 Load on Cotter Joint?
In this formula, Load on Cotter Joint uses Thickness of Cotter, Mean Width of Cotter & Shear Stress in Cotter. We can use 3 other way(s) to calculate the same, which is/are as follows -
  • Load on Cotter Joint = (pi/4*Diameter of Spigot^2-Diameter of Spigot*Thickness of Cotter)*Tensile Stress In Spigot
  • Load on Cotter Joint = (pi*Diameter of Rod of Cotter Joint^2*Tensile Stress in Cotter Joint Rod)/4
  • Load on Cotter Joint = Tensile Stress In Socket*(pi/4*(Outside Diameter of Socket^2-Diameter of Spigot^2)-Thickness of Cotter*(Outside Diameter of Socket-Diameter of Spigot))
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