Add to ORKGWe develop a nodal dislocation dynamics (DD) model to simulate plastic processes in fee crystals. The model explicitly accounts for all slip systems and Burgers vectors observed in fee systems, including stacking faults and partial dislocations. We derive simple conservation rules that describe all partial dislocation interactions rigorously and allow us to model and quantify cross-slip processes, the structure and strength of dislocation junctions, and the formation of fee-specific structures such as stacking fault tetrahedra. The DD framework is built upon isotropic non-singular linear elasticity and supports itself on information transmitted from the atomistic scale. In this fashion, connection between the meso and micro scales is attain...
Dislocations in fcc crystals are studied here in several length and time scale regimes starting from...
Dislocation multiplication in plasticity research is often connected to the picture of a Frank-Read ...
This study contributes to the development of a 'fundamental, atomistic basis' to inform ma...
We develop a nodal dislocation dynamics (DD) model to simulate plastic processes in fcc crystals. Th...
We develop a nodal dislocation dynamics (DD) model to simulate plastic processes in fcc crystals. Th...
We develop a continuum model of dislocation dynamics that predicts the main features of the crystal ...
Modeling dislocation multiplication due to interaction and reactions on a mesoscopic scale is an imp...
A dislocation dynamics (DD) model for plastic deformation, connecting the macroscopic mechanical pro...
The research under this project focused on a theoretical and computational modeling of dislocation d...
This thesis focuses on the effects of slip-slip, slip-twin, and slip-precipitates interactions on st...
Keynote TalkCurrent strategies of computational crystal plasticity that focus on individual atoms or...
A framework for investigating plasticity phenomena and their dependence on the underlying physical a...
Current strategies of computational crystal plasticity that focus on individual atoms or dislocation...
The plastic deformation of metals is the result of the motion and interaction of dislocations, line ...
AbstractIn the “materials-genome” (MG) approach which is currently being advocated in the United Sta...
Dislocations in fcc crystals are studied here in several length and time scale regimes starting from...
Dislocation multiplication in plasticity research is often connected to the picture of a Frank-Read ...
This study contributes to the development of a 'fundamental, atomistic basis' to inform ma...
We develop a nodal dislocation dynamics (DD) model to simulate plastic processes in fcc crystals. Th...
We develop a nodal dislocation dynamics (DD) model to simulate plastic processes in fcc crystals. Th...
We develop a continuum model of dislocation dynamics that predicts the main features of the crystal ...
Modeling dislocation multiplication due to interaction and reactions on a mesoscopic scale is an imp...
A dislocation dynamics (DD) model for plastic deformation, connecting the macroscopic mechanical pro...
The research under this project focused on a theoretical and computational modeling of dislocation d...
This thesis focuses on the effects of slip-slip, slip-twin, and slip-precipitates interactions on st...
Keynote TalkCurrent strategies of computational crystal plasticity that focus on individual atoms or...
A framework for investigating plasticity phenomena and their dependence on the underlying physical a...
Current strategies of computational crystal plasticity that focus on individual atoms or dislocation...
The plastic deformation of metals is the result of the motion and interaction of dislocations, line ...
AbstractIn the “materials-genome” (MG) approach which is currently being advocated in the United Sta...
Dislocations in fcc crystals are studied here in several length and time scale regimes starting from...
Dislocation multiplication in plasticity research is often connected to the picture of a Frank-Read ...
This study contributes to the development of a 'fundamental, atomistic basis' to inform ma...