Screw-dislocation constrictions in face-centered cubic crystals

Abstract: We show, using molecular statics and dynamics simulations along with dislocation dynamics calculations, that the structure of a screw dislocation in a thin film or at a free surface for face-centered cubic Cu differs from that found in bulk. In agreement with earlier work, a screw dislocation at the surface is observed to dissociate in two different {111} planes, forming a constriction at the site where the glide plane changes. We analyze in detail the energetics of the structure and conclude that the constric… Show more

“…However, we will show that it is not the case. This is an important contribution of the present paper, as it is known that the character angle impacts macroscopic plasticity in FCC crystals, for instance through cross-slips [1,31,36]. Consequently, having the correct mobilities for multiple orientations is particularly crucial.…”

Mobility law of dislocations with several character angles and temperatures in FCC aluminum

“…However, we will show that it is not the case. This is an important contribution of the present paper, as it is known that the character angle impacts macroscopic plasticity in FCC crystals, for instance through cross-slips [1,31,36]. Consequently, having the correct mobilities for multiple orientations is particularly crucial.…”

Mobility law of dislocations with several character angles and temperatures in FCC aluminum

Effects of atomic size misfit on dislocation mobility in FCC dense solid solution: Atomic simulations and phenomenological modeling

The rigidity and mobility of screw dislocations in a thin film