Is the Young's modulus the same for compressive and tensile test?

Question

I want to know the Young's modulus for a compressive test, but I have just a tensile test. Are they of the same value?

score 1 · Answer 1 · answered Oct 10 '18 at 17:13

1

For a linear isotropic Hookean material, the Young's modulus of elasticity is the same for compression and tension.

$E = \frac{\sigma}{\epsilon}$

where $E$ is the Young's modulus, $\sigma$ is the normal stress and $\epsilon$ is the normal strain.

answered Oct 10 '18 at 17:13

Mechanic

2,187

score 0 · Answer 2 · answered Oct 10 '18 at 22:33

The equivalence is derived here, for example. Briefly, any smooth energy minimum examined up close looks like a parabola, which is symmetric around the equilibrium point. A parabolic strain energy corresponds to a linear restoring force (corresponding to Hooke's Law) and a constant stiffness in both tension and compression.

Is the Young's modulus the same for compressive and tensile test?

2 Answers2