We report on large-scale nonequilibrium molecular dynamics simulations of shock wave
compression in tantalum single crystals. Two new embedded atom method interatomic …

The melting curve of Mg, Mn, Cu, Ag, Au, Zn, Cd, Al, In, and Pb has been measured up to 12
GPa using a Bridgman-type cell. Melting at high-pressure was identified detecting …

We investigate spallation in solid and liquid Cu at high strain rates induced by planar shock
loading with classical molecular dynamics. Shock simulations are performed at different …

Shock response of Cu/graphene nanolayered composites is investigated with molecular
dynamics simulations, including deformation and spall damage of Cu, and delamination of …

The high-pressure melting diagram of iron is a vital ingredient for the geodynamic modeling
of planetary interiors. Nonetheless, available data for molten iron show an alarming …

Generation and motion of dislocations and twinning are the main mechanisms of plastic
deformation. A new mechanism of plastic deformation and stress relaxation at high strain …

Initial temperature effects on shock responses, including shock-induced plasticity and
spalling damage behaviors of single-crystalline Cu are investigated by molecular dynamics …

We report reactive molecular dynamics simulations using the ReaxFF reactive force field to
examine shock-induced hot-spot formation followed by detonation initiation in realistic (2.7 …

The dynamic response of crystalline Cu-amorphous Cu 63 Zr 37 nanolaminates under
shock loading has been investigated in the present study by atomistic simulations to provide …

The dynamic tensile fracture process of liquid copper containing helium bubbles system is
systematically investigated by molecular dynamics simulations and theoretical modeling. A …