Modulus of Elasticity, Youngs Modulus Table and Calculator

Young's Modulus, Modulus of Elasticity, Shear Modulus, Poisson's Ratio, Density

Metals and Materials Table of Contents

Modulus of Elasticity also know as Young's Modulus is the mathematical description of an object or substance's tendency to be deformed elastically (i.e., non-permanently) when a force is applied to it. The elastic modulus of an object is defined as the slope of its stress-strain curve in the elastic deformation region:

Eq. 1
λ = stress / strain

Where:

λ (lambda) = Elastic Modulus
stress = Restoring force caused due to the deformation divided by the area to which the force is applied
strain = Ratio of the change caused by the stress to the original state of the object

Typical Values Modulus of Elasticity(Young's Modulus)
Material	Modulus of Elasticity, E (lb/in² x 10⁶)	Shear Modulus of Elasticity, G (lb/in² x 10⁶)	Poisson's Ratio u	Weight Density (lb/in³)
Aluminum Alloys	10.2	3.9	0.33	0.098
Beryllium Copper	18.0	7.0	0.29	0.30
Carbon Steel	29.0	11.5	0.29	0.28
Cast Iron	14.5	6.0	0.21	0.26
Inconel	31.0	11.5	0.29	0.31
Magnesium	6.5	2.4	0.35	0.07
Molybdenum	48.0	17.1	0.31	0.37
Monel Metal	26.0	9.5	0.32	0.32
Nickel Silver	18.5	7.0	0.32	0.32
Nickel Steel	29.0	11.0	0.29	0.28
Nylon	1.5	0.6	-	0.04
Phosphor Bronze	16.1	6.0	0.35	0.30
Stainless Steel	27.6	10.6	0.31	0.28
Titanium	16.5	6.5	-	0.16

Figure 1 Young’s modulus E for various materials. (Figure courtesy of Prof. Mike Ashby, Granta Design, Cambridge, U.K.)

Figure 2 Young’s modulus E versus density ρ for various materials. (Figure courtesy of Prof. Mike Ashby, Granta Design, Cambridge, U.K.)