Temperature Variation using Thermal Stress Developed in Pipes Calculator

✖Thermal stress is the stress produced by any change in the temperature of the material. Thermal stress is induced in a body when the temperature of the body is raised or lowered.ⓘ Thermal Stress [σ_t]			+10% -10%
✖Modulus of Elasticity in Gpa is the unit of measurement of an object's or substance's resistance to being deformed elastically when a stress is applied to it in Gpa.ⓘ Modulus of Elasticity in Gpa [E_gpa]			+10% -10%
✖The Coefficient of Thermal Expansion is a material property that is indicative of the extent to which a material expands upon heating.ⓘ Coefficient of Thermal Expansion [α]			+10% -10%

✖Change in temperature is the change in final and initial temperatures.ⓘ Temperature Variation using Thermal Stress Developed in Pipes [Δt]

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Formula

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Temperature Variation using Thermal Stress Developed in Pipes

Formula

`"Δt" = "σ"_{"t"}/("E"_{"gpa"}*"α")`

Example

`"16.12903°C"="1.4GPa"/("200.0GPa"*"0.000434°C⁻¹")`

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Temperature Variation using Thermal Stress Developed in Pipes Solution

STEP 0: Pre-Calculation Summary

Formula Used

Change in Temperature = Thermal Stress/(Modulus of Elasticity in Gpa*Coefficient of Thermal Expansion)
Δt = σ_t/(E_gpa*α)
This formula uses 4 Variables

Variables Used

Change in Temperature - (Measured in Kelvin) - Change in temperature is the change in final and initial temperatures.
Thermal Stress - (Measured in Pascal) - Thermal stress is the stress produced by any change in the temperature of the material. Thermal stress is induced in a body when the temperature of the body is raised or lowered.
Modulus of Elasticity in Gpa - (Measured in Pascal) - Modulus of Elasticity in Gpa is the unit of measurement of an object's or substance's resistance to being deformed elastically when a stress is applied to it in Gpa.
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.

STEP 1: Convert Input(s) to Base Unit

Thermal Stress: 1.4 Gigapascal --> 1400000000 Pascal (Check conversion here)
Modulus of Elasticity in Gpa: 200 Gigapascal --> 200000000000 Pascal (Check conversion here)
Coefficient of Thermal Expansion: 0.000434 Per Degree Celsius --> 0.000434 Per Kelvin (Check conversion here)

STEP 2: Evaluate Formula

Substituting Input Values in Formula

Δt = σ_t/(E_gpa*α) --> 1400000000/(200000000000*0.000434)

Evaluating ... ...

Δt = 16.1290322580645

STEP 3: Convert Result to Output's Unit

16.1290322580645 Kelvin -->16.1290322580645 Degree Celsius (Check conversion here)

FINAL ANSWER

16.1290322580645 ≈ 16.12903 Degree Celsius <-- Change in Temperature

(Calculation completed in 00.004 seconds)

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Credits

Created by Suraj Kumar

Birsa Institute of Technology (BIT), Sindri

Suraj Kumar has created this Calculator and 2200+ more calculators!

Verified by Ishita Goyal

Meerut Institute of Engineering and Technology (MIET), Meerut

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< 9 Temperature Stresses Calculators

Coefficient of Thermal Expansion using Initial and Final Temperature of water pipe

Go Coefficient of Thermal Expansion = Thermal Stress/(Modulus of Elasticity in Gpa*(Final Temperature-Initial Temperature))

Initial Temperature of Pipe using Temperature Stress Developed in Water Pipe

Go Initial Temperature = Final Temperature-(Thermal Stress/(Modulus of Elasticity in Gpa*Coefficient of Thermal Expansion))

Modulus of Elasticity of Pipe Material using Initial and Final Temperature

Go Modulus of Elasticity in Gpa = Thermal Stress/(Coefficient of Thermal Expansion*(Final Temperature-Initial Temperature))

Final Temperature of Pipe using Temperature Stress Developed in Water Pipe

Go Final Temperature = (Thermal Stress/(Modulus of Elasticity in Gpa*Coefficient of Thermal Expansion))+Initial Temperature

Temperature Stress using Initial and Final Temperature

Go Thermal Stress = Modulus of Elasticity in Gpa*Coefficient of Thermal Expansion*(Final Temperature-Initial Temperature)

Coefficient of Thermal Expansion using Temperature Variation in Water Pipe

Go Coefficient of Thermal Expansion = Thermal Stress/(Modulus of Elasticity in Gpa*Change in Temperature)

Temperature Variation using Thermal Stress Developed in Pipes

Go Change in Temperature = Thermal Stress/(Modulus of Elasticity in Gpa*Coefficient of Thermal Expansion)

Modulus of Elasticity of Pipe Material

Go Modulus of Elasticity in Gpa = Thermal Stress/(Coefficient of Thermal Expansion*Change in Temperature)

Temperature Stress using Temperature Variation in Water Pipe

Go Thermal Stress = Modulus of Elasticity in Gpa*Coefficient of Thermal Expansion*Change in Temperature

Temperature Variation using Thermal Stress Developed in Pipes Formula

Change in Temperature = Thermal Stress/(Modulus of Elasticity in Gpa*Coefficient of Thermal Expansion)
Δt = σ_t/(E_gpa*α)

What is Thermal Stress?

Thermal stress is the stress produced by any change in the temperature of the material. Thermal stress is induced in a body when the temperature of the body is raised or lowered and the body is not allowed to expand or contract freely.

How to Calculate Temperature Variation using Thermal Stress Developed in Pipes?

Temperature Variation using Thermal Stress Developed in Pipes calculator uses Change in Temperature = Thermal Stress/(Modulus of Elasticity in Gpa*Coefficient of Thermal Expansion) to calculate the Change in Temperature, The Temperature Variation using Thermal Stress Developed in Pipes is defined as the temperature variation in the water pipe causing the development of thermal stresses in it. Temperature Variation is basically the difference in the final & initial temperature of the pipe. Change in Temperature is denoted by Δt symbol.

How to calculate Temperature Variation using Thermal Stress Developed in Pipes using this online calculator? To use this online calculator for Temperature Variation using Thermal Stress Developed in Pipes, enter Thermal Stress (σ_t), Modulus of Elasticity in Gpa (E_gpa) & Coefficient of Thermal Expansion (α) and hit the calculate button. Here is how the Temperature Variation using Thermal Stress Developed in Pipes calculation can be explained with given input values -> 583.3333 = 1400000000/(200000000000*0.000434).

FAQ

What is Temperature Variation using Thermal Stress Developed in Pipes?

The Temperature Variation using Thermal Stress Developed in Pipes is defined as the temperature variation in the water pipe causing the development of thermal stresses in it. Temperature Variation is basically the difference in the final & initial temperature of the pipe and is represented as Δt = σ_t/(E_gpa*α) or Change in Temperature = Thermal Stress/(Modulus of Elasticity in Gpa*Coefficient of Thermal Expansion). Thermal stress is the stress produced by any change in the temperature of the material. Thermal stress is induced in a body when the temperature of the body is raised or lowered, Modulus of Elasticity in Gpa is the unit of measurement of an object's or substance's resistance to being deformed elastically when a stress is applied to it in Gpa & The Coefficient of Thermal Expansion is a material property that is indicative of the extent to which a material expands upon heating.

How to calculate Temperature Variation using Thermal Stress Developed in Pipes?

The Temperature Variation using Thermal Stress Developed in Pipes is defined as the temperature variation in the water pipe causing the development of thermal stresses in it. Temperature Variation is basically the difference in the final & initial temperature of the pipe is calculated using Change in Temperature = Thermal Stress/(Modulus of Elasticity in Gpa*Coefficient of Thermal Expansion). To calculate Temperature Variation using Thermal Stress Developed in Pipes, you need Thermal Stress (σ_t), Modulus of Elasticity in Gpa (E_gpa) & Coefficient of Thermal Expansion (α). With our tool, you need to enter the respective value for Thermal Stress, Modulus of Elasticity in Gpa & Coefficient of Thermal Expansion 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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