Using an atomistic-phase field dislocation dynamics model, we isolate and investigate grain size and stress effects on the stacking fault width created by partial dislocation emission from a boundary. We show that the nucleation stress for a Shockley partial is governed by size of the boundary defect and insensitive to grain size. We reveal a grain size regime in which the maximum value the stacking fault width attains increases with grain size
Irradiation hardening due to voids can be a significant result of radiation damage in metals, but tr...
We investigate the depinning transition occurring in dislocation assemblies. In particular, we consi...
A broad variation of stacking fault energy (SFE) in high entropy alloys (HEAs) gives rise to rich de...
As characteristic length scales shrink (\u3c100 nm) in fcc metals, alternative deformation mechanism...
Partial dislocation emission from grain boundaries in metals with medium-to-high stacking fault ener...
Grain boundaries containing porous E-structural units (SUs) are known to readily emit dislocations u...
[[abstract]]Dislocation pileups between a finite crack tip and a grain boundary with a dislocation-f...
The interactions between 60 degrees dislocation pile-ups with grain boundaries (GBs) are studied usi...
Plastic deformation is thought to involve highly 'stochastic' phenomena, caused by the gen...
Dislocation and grain-boundary processes contribute significantly to plastic behaviour in polycrysta...
By tuning consistent potentials for bimetal system, the cooperative roles of stacking fault energies...
A range of symmetric tilt grain boundaries (GBs) are investigated in several fcc metals with simula...
We use the phase-field crystal model to study nucleation of edge dislocations in two dimensions unde...
Nanocrystalline (NC) metals are exceptionally strong because they contain an unusually high density ...
The interaction of dislocations with grain boundaries (GBs) determines a number of important aspects...
Irradiation hardening due to voids can be a significant result of radiation damage in metals, but tr...
We investigate the depinning transition occurring in dislocation assemblies. In particular, we consi...
A broad variation of stacking fault energy (SFE) in high entropy alloys (HEAs) gives rise to rich de...
As characteristic length scales shrink (\u3c100 nm) in fcc metals, alternative deformation mechanism...
Partial dislocation emission from grain boundaries in metals with medium-to-high stacking fault ener...
Grain boundaries containing porous E-structural units (SUs) are known to readily emit dislocations u...
[[abstract]]Dislocation pileups between a finite crack tip and a grain boundary with a dislocation-f...
The interactions between 60 degrees dislocation pile-ups with grain boundaries (GBs) are studied usi...
Plastic deformation is thought to involve highly 'stochastic' phenomena, caused by the gen...
Dislocation and grain-boundary processes contribute significantly to plastic behaviour in polycrysta...
By tuning consistent potentials for bimetal system, the cooperative roles of stacking fault energies...
A range of symmetric tilt grain boundaries (GBs) are investigated in several fcc metals with simula...
We use the phase-field crystal model to study nucleation of edge dislocations in two dimensions unde...
Nanocrystalline (NC) metals are exceptionally strong because they contain an unusually high density ...
The interaction of dislocations with grain boundaries (GBs) determines a number of important aspects...
Irradiation hardening due to voids can be a significant result of radiation damage in metals, but tr...
We investigate the depinning transition occurring in dislocation assemblies. In particular, we consi...
A broad variation of stacking fault energy (SFE) in high entropy alloys (HEAs) gives rise to rich de...
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