Modulus of Elasticity of Pipe Material given Stress due to Temperature Change Solution

STEP 0: Pre-Calculation Summary
Formula Used
Elastic Modulus = Stress due to Temperature Change/(Coefficient of Thermal Expansion*Change in Temperature)
e = σ/(αthermal*∆T)
This formula uses 4 Variables
Variables Used
Elastic Modulus - (Measured in Pascal) - The Elastic Modulus is the ratio of Stress to Strain.
Stress due to Temperature Change - (Measured in Pascal) - Stress due to Temperature Change is the stress developed in pipe due temporal variation in day and night .
Coefficient of Thermal Expansion - (Measured in Per Kelvin) - The Coefficient of Thermal Expansion is a material property that is indicative of the extent to which a material expands upon heating.
Change in Temperature - (Measured in Kelvin) - The Change in Temperature is the difference between the initial and final temperature.
STEP 1: Convert Input(s) to Base Unit
Stress due to Temperature Change: 1200 Pascal --> 1200 Pascal No Conversion Required
Coefficient of Thermal Expansion: 1.5 Per Degree Celsius --> 1.5 Per Kelvin (Check conversion here)
Change in Temperature: 50 Kelvin --> 50 Kelvin No Conversion Required
STEP 2: Evaluate Formula
Substituting Input Values in Formula
e = σ/(αthermal*∆T) --> 1200/(1.5*50)
Evaluating ... ...
e = 16
STEP 3: Convert Result to Output's Unit
16 Pascal --> No Conversion Required
FINAL ANSWER
16 Pascal <-- Elastic Modulus
(Calculation completed in 00.004 seconds)

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National Institute of Technology Karnataka (NITK), Surathkal
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7 Thermal Expansion of Pipe Calculators

Coefficient of Thermal Expansion of Pipe Material given Stress due to Temperature Change
Go Coefficient of Thermal Expansion = Stress due to Temperature Change/(Elastic Modulus*Change in Temperature)
Modulus of Elasticity of Pipe Material given Stress due to Temperature Change
Go Elastic Modulus = Stress due to Temperature Change/(Coefficient of Thermal Expansion*Change in Temperature)
Temperature Change given Stress due to Temperature Change
Go Change in Temperature = Stress due to Temperature Change/(Coefficient of Thermal Expansion*Elastic Modulus)
Stress due to Temperature Change
Go Stress due to Temperature Change = Coefficient of Thermal Expansion*Elastic Modulus*Change in Temperature
Length of Expansion Joint given Movement that should be allowed
Go Length of Pipe = Change in Length/(Elastic Modulus*Change in Temperature)
Temperature Change given Movement that should be allowed
Go Change in Temperature = Change in Length/(Elastic Modulus*Length of Pipe)
Movement in Length of Pipe
Go Change in Length = Length of Pipe*Elastic Modulus*Change in Temperature

Modulus of Elasticity of Pipe Material given Stress due to Temperature Change Formula

Elastic Modulus = Stress due to Temperature Change/(Coefficient of Thermal Expansion*Change in Temperature)
e = σ/(αthermal*∆T)

What is Thermal Stress?

Thermal stress is mechanical stress created by any change in temperature of a material. These stresses can lead to fracturing or plastic deformation depending on the other variables of heating, which include material types and constraints.

What is Expansion Joint in Piping?

Expansion joints are used in piping systems to absorb thermal expansion or terminal movement where the use of expansion loops is undesirable or impractical. Expansion joints are available in many different shapes and materials.

How to Calculate Modulus of Elasticity of Pipe Material given Stress due to Temperature Change?

Modulus of Elasticity of Pipe Material given Stress due to Temperature Change calculator uses Elastic Modulus = Stress due to Temperature Change/(Coefficient of Thermal Expansion*Change in Temperature) to calculate the Elastic Modulus, Modulus of Elasticity of Pipe Material given Stress due to Temperature Change is defined as a pipe material represents its ability to withstand stress caused by temperature changes. It measures the material's stiffness and resistance to deformation under these conditions. Elastic Modulus is denoted by e symbol.

How to calculate Modulus of Elasticity of Pipe Material given Stress due to Temperature Change using this online calculator? To use this online calculator for Modulus of Elasticity of Pipe Material given Stress due to Temperature Change, enter Stress due to Temperature Change (σ), Coefficient of Thermal Expansion thermal) & Change in Temperature (∆T) and hit the calculate button. Here is how the Modulus of Elasticity of Pipe Material given Stress due to Temperature Change calculation can be explained with given input values -> 16 = 1200/(1.5*50).

FAQ

What is Modulus of Elasticity of Pipe Material given Stress due to Temperature Change?
Modulus of Elasticity of Pipe Material given Stress due to Temperature Change is defined as a pipe material represents its ability to withstand stress caused by temperature changes. It measures the material's stiffness and resistance to deformation under these conditions and is represented as e = σ/(αthermal*∆T) or Elastic Modulus = Stress due to Temperature Change/(Coefficient of Thermal Expansion*Change in Temperature). Stress due to Temperature Change is the stress developed in pipe due temporal variation in day and night , The Coefficient of Thermal Expansion is a material property that is indicative of the extent to which a material expands upon heating & The Change in Temperature is the difference between the initial and final temperature.
How to calculate Modulus of Elasticity of Pipe Material given Stress due to Temperature Change?
Modulus of Elasticity of Pipe Material given Stress due to Temperature Change is defined as a pipe material represents its ability to withstand stress caused by temperature changes. It measures the material's stiffness and resistance to deformation under these conditions is calculated using Elastic Modulus = Stress due to Temperature Change/(Coefficient of Thermal Expansion*Change in Temperature). To calculate Modulus of Elasticity of Pipe Material given Stress due to Temperature Change, you need Stress due to Temperature Change (σ), Coefficient of Thermal Expansion thermal) & Change in Temperature (∆T). With our tool, you need to enter the respective value for Stress due to Temperature Change, Coefficient of Thermal Expansion & Change in Temperature 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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