J. von Pezold | Researchain

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Featured researches published by J. von Pezold.

New Journal of Physics | 2013

Ab initio 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; H. W. Sheng; Christopher Race; S. Zaefferer; Bob Svendsen; Dierk Raabe; J. Neugebauer

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 set of embedded-atom-method (EAM) potentials. These calculations predict that the addition of yttrium results in a reduction in the unstable stacking fault energy of basal slip systems. Specifically in the case of an I2 stacking fault, the predicted reduction of the stacking fault energy due to Y atoms was verified by experimental measurements. Wefind a similar reduction for the stable stacking fault energy of the {11¯

Physical Review B | 2010

Generation and performance of special quasirandom structures for studying the elastic properties of random alloys: Application to Al–Ti

J. von Pezold; A. Dick; Martin Friák; J. Neugebauer

Acta Materialia | 2011

Hydrogen-enhanced plasticity at dilute bulk H concentrations: The role of H-H interactions and the formation of local hydrides

J. von Pezold; Liverios Lymperakis; J. Neugebauer

Physical Review B | 2009

Interplay between long-range elastic and short-range chemical interactions in Fe-C martensite formation

A. Udyansky; J. von Pezold; V. N. Bugaev; Martin Friák; J. Neugebauer

Steel Research International | 2011

Determining the Elasticity of Materials Employing Quantum‐mechanical Approaches: From the Electronic Ground State to the Limits of Materials Stability

Martin Friák; Tilmann Hickel; Fritz Körmann; A. Udyansky; A. Dick; J. von Pezold; Duancheng Ma; O. Kim; William Art Counts; Mojmír Šob; T. Gebhardt; D. Music; Jochen M. Schneider; Dierk Raabe; J. Neugebauer

Physical Review B | 2011

Orientational ordering of interstitial atoms and martensite formation in dilute Fe-based solid solutions

A. Udyansky; J. von Pezold; A. Dick; J. Neugebauer

Physical Review B | 2014

Role of the mesoscale in migration kinetics of flat grain boundaries

Christopher Race; J. von Pezold; J. Neugebauer

Computational Materials Science | 2014

Influence of the dislocation core on the glide of the ½ {110} edge dislocation in bcc-iron: An embedded atom method study

S.M. Hafez Haghighat; J. von Pezold; Christopher Race; Fritz Körmann; Martin Friák; J. Neugebauer; Dierk Raabe

Physical Review B | 2015

Mechanisms and kinetics of the migration of grain boundaries containing extended defects

Christopher Race; Raheleh Hadian; J. von Pezold; Blazej Grabowski; J. Neugebauer

Seminar lecture at the Technical University Bergakademie Freiberg | 2013

Combined theoretical and experimental studies of ductile Mg alloys

Martin Friák; Stefanie Sandlöbes; Zongrui Pei; Li-Fang Zhu; A. Dick; F. Wang; J. von Pezold; S. Zaefferer; Sang Bong Yi; D. Letzig; H. W. Sheng; Christopher Race; Bob Svendsen; Dierk Raabe; J. Neugebauer

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