Nanometric cutting removes material at nanoscale and generates high-quality surfaces with
a nanometric finish. In past decades, it has thrived as a mainstream manufacturing …

Atomistic-based multiscale and molecular dynamics modeling are powerful tools to simulate
the localized strain problems, offering tremendous opportunities to bridge the knowledge …

COVID-19 has caused a serious impact on the global economy. Effectively stimulating
consumption has become a momentous mission in responding to the impact of the …

The mechanical behaviors and deformation mechanisms of scratched AlCrCuFeNi high
entropy alloys (HEAs) have been studied by molecular dynamics (MD) simulations, in terms …

Molecular dynamics is employed to study the nanoindentation process of Cu 50 Zr 50
amorphous alloy. Deformation behavior of the substrate during indentation process is …

Abstract The nanotwinned Cu/FeCoCrNi high entropy alloy crystalline/crystalline
nanolaminates (NT Cu/HEA C/CNLs) are studied extensively due to their high strength and …

The mechanical characteristics and deformation mechanisms of Cu 80 Ta 20/Cu 20 Ta 80
amorphous/amorphous nanolaminates under the nanoindentation are still unclear. In this …

Atomic scale deformation mechanisms of Ti single-and bicrystals subjected to scratch testing
were studied experimentally and using molecular dynamics simulation. The numerical …

Indentation test is a powerful method of material characterization for measuring and
extracting mechanical properties at small scales with a long history and wide range of …

During the nano-cutting process, monocrystalline gallium arsenide is faced with various
surface/subsurface deformations and damages that significantly influence the product's …