Stress, Strain Calculator are physic/math calculator to find stress, strain or modulus of elasticity fast and easy.
Features:
- Instant calculation
- Result are copy able to other app
- Formula are include as reference
- Support up to 16 decimal place
- Support various unit for each input
Stress, Strain and Young's Modulus are all factors linked to the performance of a material or object in a particular setting.
Stress - Simple Engineering Stress is similar to Pressure, in that in this instance it is calculated as force per unit area. Stress is a physical quantity. The term is closely associated with 'internal force'. It is the measure of average amount of force exerted per unit area over a material. The maximum amount of stress a material can possess before its breaking point is called as breaking stress or ultimate tensile stress.
Strain - Strain is the response of a system to an applied stress. When a material is loaded with a force, it produces a stress, which then causes a material to deform. Engineering strain is defined as the amount of deformation in the direction of the applied force divided by the initial length of the material.
Formula :
ε = (L₂ - L₁)/L₁
σ = F/A
E = σ/ε
where,
F = Force
A = Area
L₁ = Initial Length
L₂ = Final Length
ε = Strain
σ = Stress
E = Young's modulus
Thanks for your support and do visit nitrio.com for more apps for your iOS devices.
Features:
- Instant calculation
- Result are copy able to other app
- Formula are include as reference
- Support up to 16 decimal place
- Support various unit for each input
Stress, Strain and Young's Modulus are all factors linked to the performance of a material or object in a particular setting.
Stress - Simple Engineering Stress is similar to Pressure, in that in this instance it is calculated as force per unit area. Stress is a physical quantity. The term is closely associated with 'internal force'. It is the measure of average amount of force exerted per unit area over a material. The maximum amount of stress a material can possess before its breaking point is called as breaking stress or ultimate tensile stress.
Strain - Strain is the response of a system to an applied stress. When a material is loaded with a force, it produces a stress, which then causes a material to deform. Engineering strain is defined as the amount of deformation in the direction of the applied force divided by the initial length of the material.
Formula :
ε = (L₂ - L₁)/L₁
σ = F/A
E = σ/ε
where,
F = Force
A = Area
L₁ = Initial Length
L₂ = Final Length
ε = Strain
σ = Stress
E = Young's modulus
Thanks for your support and do visit nitrio.com for more apps for your iOS devices.
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