A recent research published in Engineering has unveiled a novel analysis-oriented stress–strain model that promises to revolutionize the way engineers understand and design with ultra-high-performance ...

Understanding radiation-induced plastic flow in amorphous silica glass is vital for glass science and technology, and for decades it has been studied using high-energy ions and particles. However, ...

The entire stress-strain curve can now be determined using nanoindentation with a flat-ended cylindrical punch and novel analysis of the resulting force-displacement data 1. Unlike pyramidal indenters ...

Thermal and mechanical stresses are creating significant challenges in heterogeneous chiplet assemblies, increasing the time and cost required to work through all the possible physical effects, ...

Durability of components under dynamic load can be increased by understanding the origin of the stress and strain distribution. While numerical simulations based on finite element (FE) models can help ...

Engineers have long used stress-strain curves to uncover a host of material properties. The curves are created by plotting the results of tensile strength tests of material samples, putting stress ...

Correspondence to: Dr Milgrom, Department of Orthopaedics, Hadassah University Hospital, Ein Kerem, PO Box 12000, Jerusalem, Israel; milgrom{at}md2.huji.ac.il Background: Repetitive high bone strain ...

Strain measurement is imperative during prototype design and testing. Measuring strain ensures that materials perform as they should and that equipment is safe, functional, and durable. The resistive ...