Investigating temperature's effect on polymer stiffness, this research highlights Young's modulus variations, essential for ...

Temperature variations significantly impact the mechanical properties of polymers, particularly Young's modulus, affecting ...

Nanoindentation: A technique that uses a sharp tip (indenter) to apply a controlled load to a sample and measures the resulting indentation depth.By analyzing the load-displacement data, the Young's ...

Young's modulus is a crucial mechanical property in engineering, as it defines the stiffness of a material and tells us how much it will deform for an applied stress. In this video I take a ...

The results are shown in the accompanying graph, and it will be seen that for wires of diameter less than about 3/32 in. the value of the modulus rapidly decreases with the diameter.

It is important for the linear region of a stress-strain graph to have little noise as this is where Young’s modulus is determined. The solution was to use a state-of-the-art laser extensometer from ...

Nanoindentation is a measurement technique which is important in measuring Young’s modulus and hardness in thin films and any other situations involving the measurement of limited amounts of material.

I have a feeling that the stress/strain behavior of the rubber band will be nonlinear, so the concept of Young's Modulus might be irrelevant. You could still graph the stress/strain relationship ...

When a material talks about its Young’s modulus (E) value, it’s talking about stiffness. A low Young’s modulus means a material is more elastic, a high value means the material is more stiff.

In this study the Young's modulus of low-k dielectric thin films is determined using a KLA G200 Nano Indenter. The Hay-Crawford model is used to negate the influence of the substrate on measurements.