<i>Ab initio</i>and atomistic study of generalized stacking fault energies in Mg and Mg–Y alloys

Zongrui Pei; Li-Fang Zhu; Martin Friák; Stefanie Sandlöbes; J. von Pezold; Hongwei Sheng; Christopher Race; Stefan Zaefferer; Bob Svendsen; Dierk Raabe

doi:https://doi.org/10.1088/1367-2630/15/4/043020

doi.org/10.1088/1367-2630/15/4/043020

Ab initioand atomistic study of generalized stacking fault energies in Mg and Mg–Y alloys

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..., Dierk Raabe

133

New Journal of Physics3.30

Volume: 15, Issue: 4, Pages: 043020 - 043020

Published: Apr 15, 2013

Abstract

Magnesium–yttrium alloys show significantly improved room temperature ductility when compared with pure Mg. We study this interesting phenomenon theoretically at the atomic scale employing quantum-mechanical (so-called ab initio) and atomistic modeling methods. Specifically, we have calculated generalized stacking fault energies for five slip systems in both elemental magnesium (Mg) and Mg–Y alloys using (i) density functional theory and (ii) a...

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Paper Details

Title

Ab initioand atomistic study of generalized stacking fault energies in Mg and Mg–Y alloys

DOI

doi.org/10.1088/1367-2630/15/4/043020

Published Date

Apr 15, 2013

Journal

New Journal of Physics

Volume

15

Issue

4

Pages

043020 - 043020

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