Add to ORKGWe investigate with molecular dynamics the dynamic response of Cu bicrystals with a special asymmetric grain boundary (GB), (111)//(112)〈110〉, and its dependence on the loading directions. Shock loading is applied along the GB normal either from the left or right to the GB. Due to the structure asymmetry, the bicrystals demonstrate overall strong left-right loading dependence of its shock response, including compression wave features, compression and tensile plasticity, damage characteristics (e.g., spall strength), effective wave speeds and structure changes, except that spallation remains dominated by the GB damage regardless of the loading directions. The presence or absence of transient microtwinning also depends on the loading directio...
Shock deformation of copper nano-films and nano-rods is examined with Molecular Dynamics (MD) simula...
In this paper, a model of nanotwinted Cu with [111] texture is constructed, and the anisotropic resp...
Using molecular dynamics simulations, we investigate shock-induced sliding of a set of (0 0 1) twist...
We investigate with molecular dynamics the dynamic response of Cu bicrystals with a special asymmetr...
We investigate the effect of asymmetric grain boundaries (GBs) on the shock response of Cu bicrystal...
We perform molecular dynamics simulations of Cu bicrystals with two important grain boundaries (GBs)...
We perform molecular dynamics simulations of Cu bicrystals with two important grain boundaries (GBs)...
We perform molecular dynamics simulations to investigate the shock response of idealized hexagonal c...
This research uses atomistic simulations to examine the behavior of nanocrystalline Cu under impact ...
The dynamic evolution and interaction of defects under the conditions of shock loading in single cry...
AbstractThe micromechanisms related to ductile failure during dynamic loading of single crystal Cu a...
Monocrystalline copper with orientations of [001] and [221] was subjected to shock/recovery experime...
Large-scale molecular dynamics (MD) simulations are performed to investigate shock propagation in si...
abstract: Shock loading is a complex phenomenon that can lead to failure mechanisms such as strain l...
Deformation in a microcomponent is often constrained by surrounding joined material making the compo...
Shock deformation of copper nano-films and nano-rods is examined with Molecular Dynamics (MD) simula...
In this paper, a model of nanotwinted Cu with [111] texture is constructed, and the anisotropic resp...
Using molecular dynamics simulations, we investigate shock-induced sliding of a set of (0 0 1) twist...
We investigate with molecular dynamics the dynamic response of Cu bicrystals with a special asymmetr...
We investigate the effect of asymmetric grain boundaries (GBs) on the shock response of Cu bicrystal...
We perform molecular dynamics simulations of Cu bicrystals with two important grain boundaries (GBs)...
We perform molecular dynamics simulations of Cu bicrystals with two important grain boundaries (GBs)...
We perform molecular dynamics simulations to investigate the shock response of idealized hexagonal c...
This research uses atomistic simulations to examine the behavior of nanocrystalline Cu under impact ...
The dynamic evolution and interaction of defects under the conditions of shock loading in single cry...
AbstractThe micromechanisms related to ductile failure during dynamic loading of single crystal Cu a...
Monocrystalline copper with orientations of [001] and [221] was subjected to shock/recovery experime...
Large-scale molecular dynamics (MD) simulations are performed to investigate shock propagation in si...
abstract: Shock loading is a complex phenomenon that can lead to failure mechanisms such as strain l...
Deformation in a microcomponent is often constrained by surrounding joined material making the compo...
Shock deformation of copper nano-films and nano-rods is examined with Molecular Dynamics (MD) simula...
In this paper, a model of nanotwinted Cu with [111] texture is constructed, and the anisotropic resp...
Using molecular dynamics simulations, we investigate shock-induced sliding of a set of (0 0 1) twist...