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Poisson's ratio given radial strain in thick cylindrical shell Formula

GoPoisson's ratio given circumferential strain in thick cylindrical shell Formula

GoPoisson's ratio given longitudinal strain in thick cylindrical shell Formula

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Poisson's Ratio is defined as the ratio of the lateral and axial strain. For many metals and alloys, values of Poisson’s ratio range between 0.1 and 0.5. Check FAQs

𝛎 = \frac{- σ c - (ε \cdot E)}{σ θ + σ l}

𝛎 - Poisson's Ratio?σ_c - Compressive Stress Thick Shell?ε - Strain?E - Modulus of Elasticity Of Thick Shell?σ_θ - Hoop Stress on thick shell?σ_l - Longitudinal Stress Thick Shell?

Poisson's ratio given radial strain in thick cylindrical shell Example

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Here is how the Poisson's ratio given radial strain in thick cylindrical shell equation looks like with Values.

Here is how the Poisson's ratio given radial strain in thick cylindrical shell equation looks like with Units.

Here is how the Poisson's ratio given radial strain in thick cylindrical shell equation looks like.

-30.4878 = \frac{- 0.55 - (0.75 \cdot 2.6)}{0.002 + 0.08}

-30.4878 = \frac{- 0.55MPa - (0.75 \cdot 2.6MPa)}{0.002MPa + 0.08MPa}

-30.4878 = \frac{- 0.55 - (0.75 \cdot 2.6)}{0.002 + 0.08}

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Poisson's ratio given radial strain in thick cylindrical shell Solution

Follow our step by step solution on how to calculate Poisson's ratio given radial strain in thick cylindrical shell?

FIRST Step Consider the formula

𝛎 = \frac{- σ c - (ε \cdot E)}{σ θ + σ l}

Next Step Substitute values of Variables

∴

𝛎 = \frac{- 0.55MPa - (0.75 \cdot 2.6MPa)}{0.002MPa + 0.08MPa}

Next Step Convert Units

∴

𝛎 = \frac{- 550000Pa - (0.75 \cdot 2.6E+6Pa)}{2000Pa + 80000Pa}

Next Step Prepare to Evaluate

∴

𝛎 = \frac{- 550000 - (0.75 \cdot 2.6E+6)}{2000 + 80000}

Next Step Evaluate

∴

𝛎 = -30.4878048780488

LAST Step Rounding Answer

∴

𝛎 = -30.4878

Poisson's ratio given radial strain in thick cylindrical shell Formula Elements

Variables

Poisson's Ratio

Poisson's Ratio is defined as the ratio of the lateral and axial strain. For many metals and alloys, values of Poisson’s ratio range between 0.1 and 0.5.

Symbol: 𝛎

Measurement: NAUnit: Unitless

Note: Value can be positive or negative.

Formulas to find Poisson's Ratio

Compressive Stress Thick Shell

Compressive Stress Thick Shell is the force that is responsible for the deformation of the material such that the volume of the material reduces.

Symbol: σ_c

Measurement: StressUnit: MPa

Note: Value can be positive or negative.

Formulas to find Compressive Stress Thick Shell

Strain

Strain is simply the measure of how much an object is stretched or deformed.

Symbol: ε

Measurement: NAUnit: Unitless

Note: Value can be positive or negative.

Formulas to find Strain

Modulus of Elasticity Of Thick Shell

Modulus of Elasticity Of Thick Shell is a quantity that measures an object or substance's resistance to being deformed elastically when a stress is applied to it.

Symbol: E

Measurement: PressureUnit: MPa

Note: Value can be positive or negative.

Formulas to find Modulus of Elasticity Of Thick Shell

Hoop Stress on thick shell

Hoop Stress on thick shell is the circumferential stress in a cylinder.

Symbol: σ_θ

Measurement: StressUnit: MPa

Note: Value can be positive or negative.

Formulas to find Hoop Stress on thick shell

Longitudinal Stress Thick Shell

Longitudinal Stress Thick Shell is defined as the stress produced when a pipe is subjected to internal pressure.

Symbol: σ_l

Measurement: PressureUnit: MPa

Note: Value can be positive or negative.

Formulas to find Longitudinal Stress Thick Shell

Other Formulas to find Poisson's Ratio

Go Poisson's ratio given circumferential strain in thick cylindrical shell

𝛎 = (\frac{σ Hp - (e 1 \cdot E)}{σ l - σ c})

Go Poisson's ratio given longitudinal strain in thick cylindrical shell

𝛎 = σ θ - (\frac{σ l - (ε longitudinal \cdot E)}{σ θ - σ c})

Go Poisson's ratio given change in radius of thick cylindrical shell

𝛎 = (\frac{σ θ - (Δr \cdot \frac{E}{r cylindrical shell})}{σ l - σ c})

Other formulas in Stresses in Thick Cylindrical Shell category

Go Circumferential strain given stresses on cylindrical shell and Poisson's ratio

e 1 = \frac{σ θ - (𝛎 \cdot (σ l - σ c))}{E}

Go Circumferential stress given circumferential strain in thick cylindrical shell

σ θ = (e 1 \cdot E) + (𝛎 \cdot (σ l - σ c))

Go Longitudinal stress given circumferential strain in thick cylindrical shell

σ l = (\frac{σ θ - (e 1 \cdot E)}{𝛎}) + σ c

Go Compressive stress given circumferential strain in thick cylindrical shell

σ c = σ l - (\frac{σ θ - (e 1 \cdot E)}{𝛎})

How to Evaluate Poisson's ratio given radial strain in thick cylindrical shell?

Poisson's ratio given radial strain in thick cylindrical shell evaluator uses Poisson's Ratio = (-Compressive Stress Thick Shell-(Strain*Modulus of Elasticity Of Thick Shell))/(Hoop Stress on thick shell+Longitudinal Stress Thick Shell) to evaluate the Poisson's Ratio, The Poisson's ratio given radial strain in thick cylindrical shell formula is defined as the ratio of the change in the width per unit width of a material, to the change in its length per unit length, as a result of strain. Poisson's Ratio is denoted by 𝛎 symbol.

How to evaluate Poisson's ratio given radial strain in thick cylindrical shell using this online evaluator? To use this online evaluator for Poisson's ratio given radial strain in thick cylindrical shell, enter Compressive Stress Thick Shell (σ_c), Strain (ε), Modulus of Elasticity Of Thick Shell (E), Hoop Stress on thick shell (σ_θ) & Longitudinal Stress Thick Shell (σ_l) and hit the calculate button.

FAQs on Poisson's ratio given radial strain in thick cylindrical shell

What is the formula to find Poisson's ratio given radial strain in thick cylindrical shell?

The formula of Poisson's ratio given radial strain in thick cylindrical shell is expressed as Poisson's Ratio = (-Compressive Stress Thick Shell-(Strain*Modulus of Elasticity Of Thick Shell))/(Hoop Stress on thick shell+Longitudinal Stress Thick Shell). Here is an example- -30.487805 = (-550000-(0.75*2600000))/(2000+80000).

How to calculate Poisson's ratio given radial strain in thick cylindrical shell?

With Compressive Stress Thick Shell (σ_c), Strain (ε), Modulus of Elasticity Of Thick Shell (E), Hoop Stress on thick shell (σ_θ) & Longitudinal Stress Thick Shell (σ_l) we can find Poisson's ratio given radial strain in thick cylindrical shell using the formula - Poisson's Ratio = (-Compressive Stress Thick Shell-(Strain*Modulus of Elasticity Of Thick Shell))/(Hoop Stress on thick shell+Longitudinal Stress Thick Shell).

What are the other ways to Calculate Poisson's Ratio?

Here are the different ways to Calculate Poisson's Ratio-

Poisson's Ratio=((Hoop Stress Thick Shell-(Circumferential Strain*Modulus of Elasticity Of Thick Shell))/(Longitudinal Stress Thick Shell-Compressive Stress Thick Shell))
Poisson's Ratio=Hoop Stress on thick shell-((Longitudinal Stress Thick Shell-(Longitudinal Strain*Modulus of Elasticity Of Thick Shell))/(Hoop Stress on thick shell-Compressive Stress Thick Shell))
Poisson's Ratio=((Hoop Stress on thick shell-(Change in radius*Modulus of Elasticity Of Thick Shell/Radius Of Cylindrical Shell))/(Longitudinal Stress Thick Shell-Compressive Stress Thick Shell))

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Poisson's ratio given radial strain in thick cylindrical shell Formula

​GoPoisson's ratio given circumferential strain in thick cylindrical shell Formula

​GoPoisson's ratio given longitudinal strain in thick cylindrical shell Formula

Poisson's ratio given radial strain in thick cylindrical shell Example

Poisson's ratio given radial strain in thick cylindrical shell Solution

Poisson's ratio given radial strain in thick cylindrical shell Formula Elements

Other Formulas to find Poisson's Ratio

Other formulas in Stresses in Thick Cylindrical Shell category

How to Evaluate Poisson's ratio given radial strain in thick cylindrical shell?

FAQs on Poisson's ratio given radial strain in thick cylindrical shell

Variable Name

GoPoisson's ratio given circumferential strain in thick cylindrical shell Formula

GoPoisson's ratio given longitudinal strain in thick cylindrical shell Formula