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Circumferential Strain in Expression for Stresses in Rotating Thin Disc Formulas

Circumferential strain represents the change in length. And is denoted by e1.

Formulas to find Circumferential Strain in Expression for Stresses in Rotating Thin Disc

fxCircumferential strain for rotating thin disc​Go
fxCircumferential strain for rotating thin disc given radius of disc​Go
fxCircumferential strain on disc given stresses​Go
fxCircumferential stress given radius of disc​Go

Expression for Stresses in Rotating Thin Disc formulas that make use of Circumferential Strain

fxRadial stress for disc given circumferential strain on disc​Go
fxCircumferential stress given circumferential strain on disc​Go
fxFinal circumference given circumferential strain for rotating thin disc​Go
fxInitial circumference given circumferential strain for rotating thin disc​Go
fxIncrease in radius given circumferential strain for rotating thin disc​Go
fxRadius of disc given circumferential strain for rotating thin disc​Go
fxModulus of elasticity given circumferential strain on disc​Go
fxPoisson's ratio given circumferential strain on disc​Go

List of variables in Expression for Stresses in Rotating Thin Disc formulas

fx Final Circumference ​Go
fx Initial circumference ​Go
fx Increase in radius ​Go
fx Disc Radius ​Go
fx Circumferential Stress ​Go
fx Poisson's Ratio ​Go
fx Radial Stress ​Go
fx Modulus Of Elasticity Of Disc ​Go

FAQ

What is the Circumferential Strain?
Circumferential strain represents the change in length.
Can the Circumferential Strain be negative?
{YesorNo}, the Circumferential Strain, measured in {OutputVariableMeasurementName} {CanorCannot} be negative.
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