Modulus =(σ2 – σ1) / (ε2 – ε1) where stress (σ) is force divided by the specimen’s cross-sectional area and strain (ε) is the change in length of the material divided by the material’s original gauge length.
How to Find Modulus of Elasticity?
Finding the modulus of elasticity (also known as Young’s modulus) is an important part of understanding materials properties.
The modulus of elasticity is a measure of how much a material can be stretched before it permanently changes shape. It is an essential part of designing products and structures that will withstand the stresses of their environment.
There are several different methods for finding the modulus of elasticity. One of the most common is the tensile test. This involves using a tensile machine to pull on a sample of the material with increasing force until the sample breaks.
The amount of force required to cause the sample to break is then used to calculate the modulus of elasticity. Another method is the flexural test.
This involves placing a sample of the material into a flexural machine, which applies a load to one side of the sample until it breaks.
The amount of force required to cause the sample to break is then used to calculate the modulus of elasticity. A third method is the shear test.
This involves placing a sample of the material into a shear machine, which applies a load to the sample from two directions until it breaks. The amount of force required to cause the sample to break is
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