Add to ORKGGrain boundary (GB) can serve as an efficient sink for radiation-induced defects, and therefore nanocrystalline materials containing a large fraction of grain boundaries have been shown to have improved radiation resistance compared with their polycrystalline counterparts. However, the mechanical properties of grain boundaries containing radiation-induced defects such as interstitials and vacancies are not well understood. In this study, we carried out molecular dynamics simulations with embedded-atom method (EAM) potential to investigate the interaction of Σ5(210)/[001] symmetric tilt GB in Cu with various amounts of self-interstitial atoms. The mechanical properties of the grain boundary were evaluated using a bicrystal model by applying ...
Metallic materials produce various structural defects in the radiation environment, resulting in ser...
Atomistic computer simulations were performed using embedded atom method interatomic potentials in α...
In the present work, modified embedded atom potential and large-scale molecular dynamics’ simulation...
Grain boundaries are the interfaces between differently oriented crystals of the same material. The ...
Grain boundaries (GBs) can play a role as the favored locations to annihilate point defects, such as...
The effect of extrinsic grain boundary dislocations (EGBDs) in nonequilibrium grain boundaries on th...
Molecular dynamics simulation of metallic bicrystals has been carried out to investigate the behavio...
The interaction of nano-scale cracks with grain boundaries in alpha-Fe were studied using symmetric ...
Grain boundary (GB), a special solid-solid interface in materials, exists in all polycrystalline mat...
Nanocrystalline metals exhibit many excellent mechanical properties and their underlying deformation...
The shear-induced coupled grain boundary motion plays an important role in the deformation of nanocr...
The dynamic nanomechanical characteristics of Cu films with different grain boundaries under nanoind...
As the dimensions of a structure are decreased towards the nanometer scale, the mechanical response ...
The influence of grain boundaries on the mechanical properties of poly-crystalline metals is well kn...
In this paper, a self-consistent plasticity theory is proposed to model the mechanical behaviours of...
Metallic materials produce various structural defects in the radiation environment, resulting in ser...
Atomistic computer simulations were performed using embedded atom method interatomic potentials in α...
In the present work, modified embedded atom potential and large-scale molecular dynamics’ simulation...
Grain boundaries are the interfaces between differently oriented crystals of the same material. The ...
Grain boundaries (GBs) can play a role as the favored locations to annihilate point defects, such as...
The effect of extrinsic grain boundary dislocations (EGBDs) in nonequilibrium grain boundaries on th...
Molecular dynamics simulation of metallic bicrystals has been carried out to investigate the behavio...
The interaction of nano-scale cracks with grain boundaries in alpha-Fe were studied using symmetric ...
Grain boundary (GB), a special solid-solid interface in materials, exists in all polycrystalline mat...
Nanocrystalline metals exhibit many excellent mechanical properties and their underlying deformation...
The shear-induced coupled grain boundary motion plays an important role in the deformation of nanocr...
The dynamic nanomechanical characteristics of Cu films with different grain boundaries under nanoind...
As the dimensions of a structure are decreased towards the nanometer scale, the mechanical response ...
The influence of grain boundaries on the mechanical properties of poly-crystalline metals is well kn...
In this paper, a self-consistent plasticity theory is proposed to model the mechanical behaviours of...
Metallic materials produce various structural defects in the radiation environment, resulting in ser...
Atomistic computer simulations were performed using embedded atom method interatomic potentials in α...
In the present work, modified embedded atom potential and large-scale molecular dynamics’ simulation...