Add to ORKGA continuum Peierls model of a screw dislocation being pushed through an interface and an atomistic EAM study of dislocation transmission across a [0 0 1] Al-Ni interface suggest that core spreading into the interface and misfit dislocations in the interface are both potent effects that can significantly increase barrier strength of interfaces
This paper presents the results of an atomistic model in which the misfit and the bond strength betw...
This paper presents the results of an atomistic model in which the misfit and the bond strength betw...
Internal microstructural length scales play a fundamental role in the strength and ductility of a ma...
Current research on nanocrystalline metals and nanoscale multilayer thin films suggests extraordinar...
A Peierls model is used to study the role of interfacial sliding during dislocation transmission. A ...
The governing equation of screw dislocations in heterostructures is constructed using image method. ...
Large scale 3D atomistic simulations are performed to study the interaction between a curved disloca...
The interaction of dislocations with phase boundaries is a complex phenomenon, that is far from bein...
The interaction of screw dislocations with an applied stress is studied using atomistic simulations ...
3D molecular dynamics simulations were employed to investigate the influence of misfit dislocations ...
The strengthening mechanisms in bimetallic Cu/Ni thin layers are investigated using a hybrid approac...
We introduce a novel approach to calculating the Peierls energy barrier (and Peierls stress) based o...
This paper presents the results of an atomistic model in which the misfit and the bond strength betw...
The critical resolved shear stress to transmit a screw dislocation through a non-slipping (welded) b...
International audienceMolecular static simulations have been performed to study the interaction betw...
This paper presents the results of an atomistic model in which the misfit and the bond strength betw...
This paper presents the results of an atomistic model in which the misfit and the bond strength betw...
Internal microstructural length scales play a fundamental role in the strength and ductility of a ma...
Current research on nanocrystalline metals and nanoscale multilayer thin films suggests extraordinar...
A Peierls model is used to study the role of interfacial sliding during dislocation transmission. A ...
The governing equation of screw dislocations in heterostructures is constructed using image method. ...
Large scale 3D atomistic simulations are performed to study the interaction between a curved disloca...
The interaction of dislocations with phase boundaries is a complex phenomenon, that is far from bein...
The interaction of screw dislocations with an applied stress is studied using atomistic simulations ...
3D molecular dynamics simulations were employed to investigate the influence of misfit dislocations ...
The strengthening mechanisms in bimetallic Cu/Ni thin layers are investigated using a hybrid approac...
We introduce a novel approach to calculating the Peierls energy barrier (and Peierls stress) based o...
This paper presents the results of an atomistic model in which the misfit and the bond strength betw...
The critical resolved shear stress to transmit a screw dislocation through a non-slipping (welded) b...
International audienceMolecular static simulations have been performed to study the interaction betw...
This paper presents the results of an atomistic model in which the misfit and the bond strength betw...
This paper presents the results of an atomistic model in which the misfit and the bond strength betw...
Internal microstructural length scales play a fundamental role in the strength and ductility of a ma...