Is the molecular statics method suitable for the study of nanomaterials? A study case of nanowires

Abstract: Both molecular statics and molecular dynamics methods were employed to study the mechanical properties of copper nanowires. The size effect on both elastic and plastic properties of square cross-sectional nanowire was examined and compared systematically using two molecular approaches. It was found consistently from both molecular methods that the elastic and plastic properties of nanowires depend on the lateral size of nanowires. As the lateral size of nanowires decreases, the values of Young’s modulus decrea… Show more

“…15,16 Based on the MD simulation with the LJ potential for copper, 13 it is found that the Young's modulus is not size-sensitive for the lateral dimension of the rod segments as shown in Fig. 3(a).…”

A multiscale material point method for impact simulation

“…15,16 Based on the MD simulation with the LJ potential for copper, 13 it is found that the Young's modulus is not size-sensitive for the lateral dimension of the rod segments as shown in Fig. 3(a).…”

A multiscale material point method for impact simulation

“…Jeng et al[39] compared molecular dynamics and molecular statics simulation of carbon nanotube under tension, and found that MS results are almost identical with MD results at 0.01K. Chang et al[40] reported similar findings.…”

The mechanism governing cutting of hard materials with hybrid Laser/Waterjet system through controlled fracture

Processes in Nano-Length-Scale Copper Crystal Under Dynamic Loads: A Molecular Dynamics Study