Bending stress in crankweb of side crankshaft due to tangential thrust for max torque given moment Solution

STEP 0: Pre-Calculation Summary
Formula Used
Bending Stress in Crankweb Due to Tangential Force = (6*Bending Moment in Crankweb Due to Tangential Force)/(Thickness of Crank Web*Width of Crank Web^2)
σbt = (6*Mbt)/(t*w^2)
This formula uses 4 Variables
Variables Used
Bending Stress in Crankweb Due to Tangential Force - (Measured in Pascal) - Bending Stress in Crankweb Due to Tangential Force is the bending stress in the crankweb due to the tangential component of force on connecting rod at crank pin.
Bending Moment in Crankweb Due to Tangential Force - (Measured in Newton Meter) - Bending Moment in Crankweb due to tangential force is the bending moment in the crankweb due to the tangential component of force on connecting rod at crank pin.
Thickness of Crank Web - (Measured in Meter) - Thickness of Crank Web is defined as the thickness of the crank web (the portion of a crank between the crankpin and the shaft) measured parallel to the crankpin longitudinal axis.
Width of Crank Web - (Measured in Meter) - Width of Crank Web is defined as the width of the crank web (the portion of a crank between the crankpin and the shaft) measured perpendicular to the crankpin longitudinal axis.
STEP 1: Convert Input(s) to Base Unit
Bending Moment in Crankweb Due to Tangential Force: 400000 Newton Millimeter --> 400 Newton Meter (Check conversion ​here)
Thickness of Crank Web: 40 Millimeter --> 0.04 Meter (Check conversion ​here)
Width of Crank Web: 65 Millimeter --> 0.065 Meter (Check conversion ​here)
STEP 2: Evaluate Formula
Substituting Input Values in Formula
σbt = (6*Mbt)/(t*w^2) --> (6*400)/(0.04*0.065^2)
Evaluating ... ...
σbt = 14201183.4319527
STEP 3: Convert Result to Output's Unit
14201183.4319527 Pascal -->14.2011834319527 Newton per Square Millimeter (Check conversion ​here)
FINAL ANSWER
14.2011834319527 14.20118 Newton per Square Millimeter <-- Bending Stress in Crankweb Due to Tangential Force
(Calculation completed in 00.020 seconds)

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Design of Crank Web at Angle of Maximum Torque Calculators

Bending stress in crankweb of side crankshaft due to radial thrust for max torque
​ LaTeX ​ Go Bending Stress in Crankweb Due to Radial Force = (6*Radial Force at Crank Pin*((Length of Crank Pin*0.75)+(Thickness of Crank Web*0.5)))/(Thickness of Crank Web^2*Width of Crank Web)
Bending stress in crankweb of side crankshaft due to radial thrust for max torque given moment
​ LaTeX ​ Go Bending Stress in Crankweb Due to Radial Force = (6*Bending Moment in Crankweb Due to Radial Force)/(Thickness of Crank Web^2*Width of Crank Web)
Bending moment in crankweb of side crankshaft due to radial thrust for max torque given stress
​ LaTeX ​ Go Bending Moment in Crankweb Due to Radial Force = (Bending Stress in Crankweb Due to Radial Force*Thickness of Crank Web^2*Width of Crank Web)/6
Bending moment in crankweb of side crankshaft due to radial thrust for maximum torque
​ LaTeX ​ Go Bending Moment in Crankweb Due to Radial Force = Radial Force at Crank Pin*((Length of Crank Pin*0.75)+(Thickness of Crank Web*0.5))

Bending stress in crankweb of side crankshaft due to tangential thrust for max torque given moment Formula

​LaTeX ​Go
Bending Stress in Crankweb Due to Tangential Force = (6*Bending Moment in Crankweb Due to Tangential Force)/(Thickness of Crank Web*Width of Crank Web^2)
σbt = (6*Mbt)/(t*w^2)

Oil Passage and Oil Seals in a Crankshaft

The crankshaft oil passage passes oil from the main bearing journals to the large end journals. Usually, the hole is drilled in the crank web. When the crankpin is in an up position and combustion forces push the connecting rod down, oil can penetrate between the journal and the bearing. The crankshaft extends slightly beyond the crankcase at both ends. This will cause oil to leak from these ends. Oil seals are provided to keep oil out of these openings. There are two main oil seals connected at the front end and the rear end.

How to Calculate Bending stress in crankweb of side crankshaft due to tangential thrust for max torque given moment?

Bending stress in crankweb of side crankshaft due to tangential thrust for max torque given moment calculator uses Bending Stress in Crankweb Due to Tangential Force = (6*Bending Moment in Crankweb Due to Tangential Force)/(Thickness of Crank Web*Width of Crank Web^2) to calculate the Bending Stress in Crankweb Due to Tangential Force, The Bending stress in crankweb of side crankshaft due to tangential thrust for max torque given moment is the amount of bending stresses generated into the central plane of the crankweb of a side crankshaft due to the tangential thrust force acting on the crankpin end of the connecting rod. Bending Stress in Crankweb Due to Tangential Force is denoted by σbt symbol.

How to calculate Bending stress in crankweb of side crankshaft due to tangential thrust for max torque given moment using this online calculator? To use this online calculator for Bending stress in crankweb of side crankshaft due to tangential thrust for max torque given moment, enter Bending Moment in Crankweb Due to Tangential Force (Mbt), Thickness of Crank Web (t) & Width of Crank Web (w) and hit the calculate button. Here is how the Bending stress in crankweb of side crankshaft due to tangential thrust for max torque given moment calculation can be explained with given input values -> 1.4E-5 = (6*400)/(0.04*0.065^2).

FAQ

What is Bending stress in crankweb of side crankshaft due to tangential thrust for max torque given moment?
The Bending stress in crankweb of side crankshaft due to tangential thrust for max torque given moment is the amount of bending stresses generated into the central plane of the crankweb of a side crankshaft due to the tangential thrust force acting on the crankpin end of the connecting rod and is represented as σbt = (6*Mbt)/(t*w^2) or Bending Stress in Crankweb Due to Tangential Force = (6*Bending Moment in Crankweb Due to Tangential Force)/(Thickness of Crank Web*Width of Crank Web^2). Bending Moment in Crankweb due to tangential force is the bending moment in the crankweb due to the tangential component of force on connecting rod at crank pin, Thickness of Crank Web is defined as the thickness of the crank web (the portion of a crank between the crankpin and the shaft) measured parallel to the crankpin longitudinal axis & Width of Crank Web is defined as the width of the crank web (the portion of a crank between the crankpin and the shaft) measured perpendicular to the crankpin longitudinal axis.
How to calculate Bending stress in crankweb of side crankshaft due to tangential thrust for max torque given moment?
The Bending stress in crankweb of side crankshaft due to tangential thrust for max torque given moment is the amount of bending stresses generated into the central plane of the crankweb of a side crankshaft due to the tangential thrust force acting on the crankpin end of the connecting rod is calculated using Bending Stress in Crankweb Due to Tangential Force = (6*Bending Moment in Crankweb Due to Tangential Force)/(Thickness of Crank Web*Width of Crank Web^2). To calculate Bending stress in crankweb of side crankshaft due to tangential thrust for max torque given moment, you need Bending Moment in Crankweb Due to Tangential Force (Mbt), Thickness of Crank Web (t) & Width of Crank Web (w). With our tool, you need to enter the respective value for Bending Moment in Crankweb Due to Tangential Force, Thickness of Crank Web & Width of Crank Web 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 Bending Stress in Crankweb Due to Tangential Force?
In this formula, Bending Stress in Crankweb Due to Tangential Force uses Bending Moment in Crankweb Due to Tangential Force, Thickness of Crank Web & Width of Crank Web. We can use 1 other way(s) to calculate the same, which is/are as follows -
  • Bending Stress in Crankweb Due to Tangential Force = (6*Tangential Force at Crank Pin*(Distance Between Crank Pin And Crankshaft-Diameter of Journal or Shaft at Bearing 1/2))/(Thickness of Crank Web*Width of Crank Web^2)
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