Add to ORKGThis paper presents a large-scale atomic resolution simulation of nanoindentation into a thin aluminum film using the recently introduced quasicontinuum method. The purpose of the simulation was to study the initial stages of plastic deformation under the action of an indenter. Two different crystallographic orientations of the film and two different indenter geometries (a rectangular prism and a cylinder) were studied. We obtained both macroscopic load versus indentation depth curves, as well as microscopic quantities, such as the Peierls stress and density of geometrically necessary dislocations beneath the indenter. In addition, we obtain detailed information regarding the atomistic mechanisms responsible for the macroscopic curves. A st...
The influences of indenter shape on dislocation actives and stress distributions during nanoindentat...
Molecular dynamics simulations were performed to gain fundamental insight into crystal plasticity, a...
This review covers areas where our understanding of the mechanisms underlying nanoindentation has be...
The phenomenon of 2D nanoindentation of circular "Brinell" indenter into a single crystal metal thin...
Microscopic properties of nanocrystal aluminum thin film have been investigated using the quasiconti...
Microscopic properties of nanocrystal aluminum thin film have been investigated using the quasiconti...
In order to study the effect of the angle of wedged indenters during nanoindentation, indenters with...
Microscopic properties of nanocrystal Aluminum thin film have been simulated using the quasicontinuu...
In atomistic simulations, nanoindentation is usually studied for ideal substrates. Here we explore t...
Nanoindentation is a hardness test method applied to small volumes of material which can provide som...
[[abstract]]Atomistic simulation of nanoindentation with spherical indenters was carried out to stud...
Atomistic simulations are performed for the study of defect nucleation and evolution in Al single cr...
Abstract—This paper describes nanoindentation experiments on thin films of polycrystalline Al of kno...
Using molecular-dynamics simulation, we study nanoindentation in fcc (Cu and Al) and bcc (Fe and Ta)...
The idea of dimensionality and size effect the strength of metallic specimen as their typical size i...
The influences of indenter shape on dislocation actives and stress distributions during nanoindentat...
Molecular dynamics simulations were performed to gain fundamental insight into crystal plasticity, a...
This review covers areas where our understanding of the mechanisms underlying nanoindentation has be...
The phenomenon of 2D nanoindentation of circular "Brinell" indenter into a single crystal metal thin...
Microscopic properties of nanocrystal aluminum thin film have been investigated using the quasiconti...
Microscopic properties of nanocrystal aluminum thin film have been investigated using the quasiconti...
In order to study the effect of the angle of wedged indenters during nanoindentation, indenters with...
Microscopic properties of nanocrystal Aluminum thin film have been simulated using the quasicontinuu...
In atomistic simulations, nanoindentation is usually studied for ideal substrates. Here we explore t...
Nanoindentation is a hardness test method applied to small volumes of material which can provide som...
[[abstract]]Atomistic simulation of nanoindentation with spherical indenters was carried out to stud...
Atomistic simulations are performed for the study of defect nucleation and evolution in Al single cr...
Abstract—This paper describes nanoindentation experiments on thin films of polycrystalline Al of kno...
Using molecular-dynamics simulation, we study nanoindentation in fcc (Cu and Al) and bcc (Fe and Ta)...
The idea of dimensionality and size effect the strength of metallic specimen as their typical size i...
The influences of indenter shape on dislocation actives and stress distributions during nanoindentat...
Molecular dynamics simulations were performed to gain fundamental insight into crystal plasticity, a...
This review covers areas where our understanding of the mechanisms underlying nanoindentation has be...