Abstract: Herein, the relationship between the annealing temperature and the tensile strength of high-purity fine-grain niobium is systematically examined. The superconducting radio frequency (SRF) ...

A laser-induced launch platform in Cornell's Extreme Mechanics, Materials and Manufacturing Lab.Charissa King-O'Brien / Cornell University US scientists have debunked a 70-year-old physics law that ...

A recent NSR paper measures mechanical properties of solids as a function of both crystalline grain size and grain-boundary thickness The world of solid materials is not composed solely of perfectly ...

Abstract: Polycrystalline silicon carbide (poly-SiC) has been widely used in Micro Electro Mechanical Systems (MEMS) and semiconductor packaging due to its excellent electrical properties. However, ...

This repository demonstrates multiscale modeling of copper heat pipes using machine learning, integrating grain-scale data with FEA via a UMAT. It highlights grain size’s impact on stress, strain, and ...

Professor Hyoung Seop Kim, along with Jeong Ah Lee, a PhD candidate, both from the Graduate Institute of Ferrous & Eco Materials Technology and the Department of Materials Science and Engineering, ...

A research team has developed an optimal artificial intelligence model to predict the yield strength of various metals, effectively addressing traditional cost and time limitations. A research team ...

A research team led by Professor Hyoung Seop Kim from the Graduate Institute of Ferrous & Eco Materials Technology and the Department of Materials Science and Engineering and Jeong Ah Lee, a PhD ...

ABSTRACT: Thermomechanical processing is a metallurgical operation to produce high-strength steel bars (rebars), through combining plastic deformation with thermal processes like heat treatment, water ...

ABSTRACT: Several drawing processes of 3N pure copper (Cu) with ultra high reduction in area have been performed, and the texture has been observed using electron back scattered diffraction. It is ...