Inversion of dislocation-impurity interactions in α-Fe under magnetic state changes

Franco Moitzi; Lorenz Romaner; Andrei V. Ruban; Swarnava Gosh; Markus Eisenbach; Oleg E. Peil

doi:10.1016/j.scriptamat.2025.116766

Inversion of dislocation-impurity interactions in α-Fe under magnetic state changes

Franco Moitzi
, Lorenz Romaner
, Andrei V. Ruban
, Swarnava Gosh
, Markus Eisenbach
, Oleg E. Peil

Lehrstuhl für Metallkunde (420)

Materials Center Leoben Forschungs GmbH
National Center for Computational Science

Publikation: Beitrag in Fachzeitschrift › Artikel › Forschung › Begutachtung

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
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.

Originalsprache	Englisch
Aufsatznummer	116766
Seitenumfang	5
Fachzeitschrift	Scripta materialia
Jahrgang	2025
Ausgabenummer	Volume 266, 1 September 2025
DOIs	https://doi.org/10.1016/j.scriptamat.2025.116766
Publikationsstatus	Elektronische Veröffentlichung vor Drucklegung. - 26 Mai 2025

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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 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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T1 - Inversion of dislocation-impurity interactions in α-Fe under magnetic state changes

AU - Moitzi, Franco

AU - Romaner, Lorenz

AU - Ruban, Andrei V.

AU - Gosh, Swarnava

AU - Eisenbach, Markus

AU - Peil, Oleg E.

PY - 2025/5/26

Y1 - 2025/5/26

N2 - 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 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.

AB - 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 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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DO - 10.1016/j.scriptamat.2025.116766

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