Yield Strength in Shear Maximum Shear Stress Theory Calculator

✖Factor of Safety of Shaft is the ratio of maximum shear stress a shaft can withstand to the maximum shear stress it is subjected to.ⓘ Factor of Safety of Shaft [fos_shaft]			+10% -10%
✖Maximum Principle Stress in Shaft is the maximum normal stress a shaft can withstand without yielding, calculated based on maximum shear stress theory.ⓘ Maximum Principle Stress in Shaft [σ_max]			+10% -10%

✖Shear Yield Strength in Shaft from MSST is the maximum shear stress a shaft can withstand without yielding, based on Principal Stress Theory.ⓘ Yield Strength in Shear Maximum Shear Stress Theory [S_sy]

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Yield Strength in Shear Maximum Shear Stress Theory Solution

STEP 0: Pre-Calculation Summary

Formula Used

Shear Yield Strength in Shaft from MSST = 0.5*Factor of Safety of Shaft*Maximum Principle Stress in Shaft
S_sy = 0.5*fos_shaft*σ_max
This formula uses 3 Variables

Variables Used

Shear Yield Strength in Shaft from MSST - (Measured in Pascal) - Shear Yield Strength in Shaft from MSST is the maximum shear stress a shaft can withstand without yielding, based on Principal Stress Theory.
Factor of Safety of Shaft - Factor of Safety of Shaft is the ratio of maximum shear stress a shaft can withstand to the maximum shear stress it is subjected to.
Maximum Principle Stress in Shaft - (Measured in Pascal) - Maximum Principle Stress in Shaft is the maximum normal stress a shaft can withstand without yielding, calculated based on maximum shear stress theory.

STEP 1: Convert Input(s) to Base Unit

Factor of Safety of Shaft: 1.88 --> No Conversion Required
Maximum Principle Stress in Shaft: 135.3 Newton per Square Millimeter --> 135300000 Pascal (Check conversion here)

STEP 2: Evaluate Formula

Substituting Input Values in Formula

S_sy = 0.5*fos_shaft*σ_max --> 0.5*1.88*135300000

Evaluating ... ...

S_sy = 127182000

STEP 3: Convert Result to Output's Unit

127182000 Pascal -->127.182 Newton per Square Millimeter (Check conversion here)

FINAL ANSWER

127.182 Newton per Square Millimeter <-- Shear Yield Strength in Shaft from MSST

(Calculation completed in 00.004 seconds)

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Osmania University (OU), Hyderabad

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< Maximum Shear Stress and Principal Stress Theory Calculators

Diameter of Shaft given Permissible Value of Maximum Principle Stress

LaTeX Go Diameter of Shaft from MPST = (16/(pi*Maximum Principle Stress in Shaft)*(Bending Moment in Shaft+sqrt(Bending Moment in Shaft^2+Torsional Moment in Shaft^2)))^(1/3)

Permissible Value of Maximum Principle Stress

LaTeX Go Maximum Principle Stress in Shaft = 16/(pi*Diameter of Shaft from MPST^3)*(Bending Moment in Shaft+sqrt(Bending Moment in Shaft^2+Torsional Moment in Shaft^2))

Permissible Value of Maximum Principle Stress using Factor of Safety

LaTeX Go Maximum Principle Stress in Shaft = Yield Strength in Shaft from MPST/Factor of Safety of Shaft

Factor of Safety given Permissible Value of Maximum Principle Stress

LaTeX Go Factor of Safety of Shaft = Yield Strength in Shaft from MPST/Maximum Principle Stress in Shaft

Yield Strength in Shear Maximum Shear Stress Theory Formula

LaTeX Go

Shear Yield Strength in Shaft from MSST = 0.5*Factor of Safety of Shaft*Maximum Principle Stress in Shaft
S_sy = 0.5*fos_shaft*σ_max

Define Yield Strength?

Yield strength is the maximum stress that a material can withstand without permanent deformation. It marks the point at which a material begins to deform plastically, meaning that it will not return to its original shape after the applied stress is removed. Yield strength is a critical property in engineering and materials science, as it helps determine the safe load-carrying capacity of structural components. Knowing the yield strength allows engineers to design structures and components that can withstand expected loads without failing or undergoing unacceptable deformation.

How to Calculate Yield Strength in Shear Maximum Shear Stress Theory?

Yield Strength in Shear Maximum Shear Stress Theory calculator uses Shear Yield Strength in Shaft from MSST = 0.5*Factor of Safety of Shaft*Maximum Principle Stress in Shaft to calculate the Shear Yield Strength in Shaft from MSST, Yield Strength in Shear Maximum Shear Stress Theory formula is defined as the maximum stress a material can withstand without undergoing plastic deformation, calculated based on the principal stress theory, providing a critical value for material failure analysis in engineering design and structural integrity assessments. Shear Yield Strength in Shaft from MSST is denoted by S_sy symbol.

How to calculate Yield Strength in Shear Maximum Shear Stress Theory using this online calculator? To use this online calculator for Yield Strength in Shear Maximum Shear Stress Theory, enter Factor of Safety of Shaft (fos_shaft) & Maximum Principle Stress in Shaft (σ_max) and hit the calculate button. Here is how the Yield Strength in Shear Maximum Shear Stress Theory calculation can be explained with given input values -> 0.000127 = 0.5*1.88*135300000.

FAQ

What is Yield Strength in Shear Maximum Shear Stress Theory?

Yield Strength in Shear Maximum Shear Stress Theory formula is defined as the maximum stress a material can withstand without undergoing plastic deformation, calculated based on the principal stress theory, providing a critical value for material failure analysis in engineering design and structural integrity assessments and is represented as S_sy = 0.5*fos_shaft*σ_max or Shear Yield Strength in Shaft from MSST = 0.5*Factor of Safety of Shaft*Maximum Principle Stress in Shaft. Factor of Safety of Shaft is the ratio of maximum shear stress a shaft can withstand to the maximum shear stress it is subjected to & Maximum Principle Stress in Shaft is the maximum normal stress a shaft can withstand without yielding, calculated based on maximum shear stress theory.

How to calculate Yield Strength in Shear Maximum Shear Stress Theory?

Yield Strength in Shear Maximum Shear Stress Theory formula is defined as the maximum stress a material can withstand without undergoing plastic deformation, calculated based on the principal stress theory, providing a critical value for material failure analysis in engineering design and structural integrity assessments is calculated using Shear Yield Strength in Shaft from MSST = 0.5*Factor of Safety of Shaft*Maximum Principle Stress in Shaft. To calculate Yield Strength in Shear Maximum Shear Stress Theory, you need Factor of Safety of Shaft (fos_shaft) & Maximum Principle Stress in Shaft (σ_max). With our tool, you need to enter the respective value for Factor of Safety of Shaft & Maximum Principle Stress in Shaft 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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