Atomistic simulation of the effects of hydrogen on the mobility of edge dislocation in alpha iron

Classical molecular dynamics simulations of the interaction of edge dislocations in Ni with chains of spherical Ni 3 Al precipitates are performed using EAM potentials. The order hardening is investigated at temperature T = 0 K by determining the critical resolved shear stresses (CRSSs) for a superd

Dislocation segments with Burgers vector b = h1 0 0i are formed during deformation of body-centred-cubic (bcc) metals by the interaction between dislocations with b = 1/2h1 1 1i. Such segments are also created by reactions between dislocations and dislocation loops in irradiated bcc metals. The obst

In this paper, we carried out atomistic calculations to investigate in detail the core structure and motion mechanism of the 1 2 < 1 1 1 > f1 1 2g edge dislocation in a-iron. First, molecular statics simulations are used to characterise the dislocation-core structure in the framework of the Peierls-