The elastic modulus relates the applied stress to the strain it produces. In a material that obeys Hooke's Law, the initial uniaxial elastic response is linear with stress and strain coupled through ...

Elastic deformation continues until the yield stress of the material if it is ductile, after which the material plastically deforms. A brittle material fractures before any plastic deformation occurs ...

Indeed, its elastic modulus appears to rise as temperatures get hotter. Where other metals start to soften, C o25 N i25 (HfTiZr) 50, or “the high-entropy Elinvar alloy" gets stiffer.

In a recent study published in Communications Materials, researchers demonstrated how incorporating a novel isotropic intermetallic phase significantly enhances the elastic modulus of a cast ...

As a high-value-added titanium product, titanium elastic coils have significant advantages, including a short production ...

How the elastic modulus fits into the kinetic modulus. Download this article in .PDF format This file type includes high resolution graphics and schematics when applicable.

The elastic modulus (stress/stain) is a mechanical property that measures a material’s elasticity; the higher a material’s modulus, the more stress, or force, is needed to deform or compress it.

Young's modulus is a mechanical property that measures the stiffness of the materials when force or compression is applied. Read about it's role in nanotechnology here.

It is difficult to take accurate measurements of the elastic modulus when it comes to thin-films, because of what is called the substrate effect.

Young's modulus for Polythene, cross-linked by pile irradiation, has been measured by both static and dynamic means. Below about 115° C (the usual melting-point) the modulus decreases with temperature ...