Add to ORKGSolution strengthening is a well-known approach to tailoring the mechanical properties of structural alloys. Ultimately, the properties of the dislocation/solute interaction are rooted in the electronic structure of the alloy. Accordingly, we compute the electronic structure associated with, and the energy barriers to dislocation cross-slip. The energy barriers so obtained can be used in the development of multiscale models for dislocation mediated plasticity. The computed electronic structure can be used to identify substitutional solutes likely to interact strongly with the dislocation. Using the example of a-type screw dislocations in Mg, we compute accurately the Peierls barrier to prismatic plane slip and argue that Y, Ca, Ti, and Zr s...
Taking pure Mg, Mg-Al, and Mg-Zn as prototypes, the effects of strain on the stacking fault energies...
Dislocation core structures in elemental semiconductors (ESC) and III-V compound semiconductors (CSC...
Mg-Ce alloys have been attracting attention because a small amount of Ce addition improves the ducti...
Alloying magnesium (Mg) with rare earth elements such as yttrium (Y) has been reported to activate t...
Improving room temperature ductility and formability is a bottleneck for a wide industrial applicati...
Mg alloys have excellent strength to weight ratio but their use is limited by their poor room temper...
Solute accelerated cross-slip of pyramidal screw dislocations has recently been recognized as a cru...
International audienceBased on atomic scale simulation techniques, we study the dislocation pinning ...
International audienceWe report our atomic-scale computations for the static depinning threshold of ...
International audienceWe report our atomic-scale computations for the static depinning threshold of ...
The effect of Y addition on the slip behavior of an edge dislocation on basal, prismatic and second-...
This study contributes to the development of a 'fundamental, atomistic basis' to inform ma...
International audienceMolecular static simulations have been performed to study the interaction betw...
International audienceMolecular static simulations have been performed to study the interaction betw...
Fundamental understanding of the dissociation mode of 〈c + a〉 dislocations on the 101¯1 plane is req...
Taking pure Mg, Mg-Al, and Mg-Zn as prototypes, the effects of strain on the stacking fault energies...
Dislocation core structures in elemental semiconductors (ESC) and III-V compound semiconductors (CSC...
Mg-Ce alloys have been attracting attention because a small amount of Ce addition improves the ducti...
Alloying magnesium (Mg) with rare earth elements such as yttrium (Y) has been reported to activate t...
Improving room temperature ductility and formability is a bottleneck for a wide industrial applicati...
Mg alloys have excellent strength to weight ratio but their use is limited by their poor room temper...
Solute accelerated cross-slip of pyramidal screw dislocations has recently been recognized as a cru...
International audienceBased on atomic scale simulation techniques, we study the dislocation pinning ...
International audienceWe report our atomic-scale computations for the static depinning threshold of ...
International audienceWe report our atomic-scale computations for the static depinning threshold of ...
The effect of Y addition on the slip behavior of an edge dislocation on basal, prismatic and second-...
This study contributes to the development of a 'fundamental, atomistic basis' to inform ma...
International audienceMolecular static simulations have been performed to study the interaction betw...
International audienceMolecular static simulations have been performed to study the interaction betw...
Fundamental understanding of the dissociation mode of 〈c + a〉 dislocations on the 101¯1 plane is req...
Taking pure Mg, Mg-Al, and Mg-Zn as prototypes, the effects of strain on the stacking fault energies...
Dislocation core structures in elemental semiconductors (ESC) and III-V compound semiconductors (CSC...
Mg-Ce alloys have been attracting attention because a small amount of Ce addition improves the ducti...