Inversion of Dislocation-Impurity Interactions in α-Fe under Magnetic State Changes

Abstract

In this work, we investigate the dislocation-impurity interaction energies and their profiles for various 3d elements V, Cr, Mn, Cu, Ni, and Co in and around 1/2111 screw dislocations in α-Fe using ab initio methods. We consider the ferromagnetic and paramagnetic states, with the latter being modeled through both the disordered local moment model and a spin-wave approach. Our findings reveal that (1) magnetic effects are large compared to size misfit effects of substitutional impurities, and (2) dislocation-impurity interactions are dependent on the magnetic state of the matrix and thermal lattice expansion. In particular, Cu changes from core-attractive in the ferromagnetic state to repulsive in the paramagnetic state.

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