Add to ORKGSymmetrical tilt and twist grain boundary structures have been simulated in bcc iron using a many-body potential of the Finnis-Sinclair form. Initial structures were relaxed to the local minimum energy configuration using molecular dynamics. The width and relative energies of the resulting grain boundaries have been calculated. Collision cascades have been initiated in the structure by imparting initial energy to a single Fe atom and the interaction of the cascade with the grain boundary has been studied again using molecular dynamics simulations. The cascades were chosen where the primary knock-on atom (PKA) had initial energy of 1 keV and the orientation and distance of the PKA were changed in order to generate some statistical informatio...
The atomistic structures of a number of single vacancies and interstitials at a number of sites in t...
The sustainability and capacity of macroscopic deformation by polycrystalline metals and metallic al...
The intergranular segregation of P atoms in steel is a major cause of nuclear pressure vessel (NPV) ...
In this work we study a set of $\left$ tilt grain boundaries (GB) with a misorientation angle varied...
Atomistic computer simulations were performed using embedded atom method interatomic potentials in α...
Molecular-dynamic simulations were performed to study the influence of displacement cascades on grai...
Structural transformations at interfaces are of profound fundamental interest as complex ex-amples o...
Classical molecular dynamics simulations have been employed to investigate the influence of P impuri...
Understanding and predicting a material's performance in response to high-energy radiation damage, a...
Abstract(#br)Tensile deformation behaviours of body-centred cubic (BCC) iron with varying number of ...
Molecular dynamics techniques are used to explore metals at an atomic level. The focus of the studi...
Molecular dynamics (MD) simulation has been used to study the martensitic transformation in iron at ...
The study is aimed to understand atomic scale details of defect-boundary interactions, which are cri...
In the present work, the evolution of atomic structures and related changes in energy state, atomic ...
Most experimental work on radiation damage is performed to fairly high doses, where cascade overlap ...
The atomistic structures of a number of single vacancies and interstitials at a number of sites in t...
The sustainability and capacity of macroscopic deformation by polycrystalline metals and metallic al...
The intergranular segregation of P atoms in steel is a major cause of nuclear pressure vessel (NPV) ...
In this work we study a set of $\left$ tilt grain boundaries (GB) with a misorientation angle varied...
Atomistic computer simulations were performed using embedded atom method interatomic potentials in α...
Molecular-dynamic simulations were performed to study the influence of displacement cascades on grai...
Structural transformations at interfaces are of profound fundamental interest as complex ex-amples o...
Classical molecular dynamics simulations have been employed to investigate the influence of P impuri...
Understanding and predicting a material's performance in response to high-energy radiation damage, a...
Abstract(#br)Tensile deformation behaviours of body-centred cubic (BCC) iron with varying number of ...
Molecular dynamics techniques are used to explore metals at an atomic level. The focus of the studi...
Molecular dynamics (MD) simulation has been used to study the martensitic transformation in iron at ...
The study is aimed to understand atomic scale details of defect-boundary interactions, which are cri...
In the present work, the evolution of atomic structures and related changes in energy state, atomic ...
Most experimental work on radiation damage is performed to fairly high doses, where cascade overlap ...
The atomistic structures of a number of single vacancies and interstitials at a number of sites in t...
The sustainability and capacity of macroscopic deformation by polycrystalline metals and metallic al...
The intergranular segregation of P atoms in steel is a major cause of nuclear pressure vessel (NPV) ...