Johann von Pezold | Researchain

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Featured researches published by Johann von Pezold.

Science and Technology of Advanced Materials | 2013

Ab initio identified design principles of solid-solution strengthening in Al

Duancheng Ma; Martin Friák; Johann von Pezold; Dierk Raabe; J. Neugebauer

Abstract Solid-solution strengthening in six Al–X binary systems is investigated using first-principle methods. The volumetric mismatch parameter and the solubility enthalpy per solute were calculated. We derive three rules for designing solid-solution strengthened alloys: (i) the solubility enthalpy per solute is related to the volumetric mismatch by a power law; (ii) for each annealing temperature, there exists an optimal solute–volume mismatch to achieve maximum strength; and (iii) the strengthening potential of high volumetric mismatch solutes is severely limited by their low solubility. Our results thus show that the thermodynamic properties of the system (here Al–X alloys) set clear upper bounds to the achievable strengthening effects owing to the reduced solubility with increasing volume mismatch.

Acta Materialia | 2013

Thermodynamics of carbon solubility in ferrite and vacancy formation in cementite in strained pearlite

Gh. Ali Nematollahi; Johann von Pezold; Jörg Neugebauer; Dierk Raabe

Acta Materialia | 2015

Computationally efficient and quantitatively accurate multiscale simulation of solid-solution strengthening by ab initio calculation

Duancheng Ma; Martin Friák; Johann von Pezold; Dierk Raabe; Jörg Neugebauer

Acta Materialia | 2015

Ab initio study of compositional trends in solid solution strengthening in metals with low Peierls stresses

Duancheng Ma; Martin Friák; Johann von Pezold; Jörg Neugebauer; Dierk Raabe

Open Access Journal | 2018

Modeling of Phase Equilibria in Ni-H: Bridging the Atomistic with the Continuum Scale

Dominique Korbmacher; Johann von Pezold; Steffen Brinckmann; Jörg Neugebauer; Claas Hüter; Robert Spatschek

Workshop on Integrated Computational Materials Engineering (ICME) | 2014

Recent development of modelling techniques in nano- and meso-scale simulations of dislocation dynamics

Seyed Masood Hafez Haghighat; Dierk Raabe; Johann von Pezold; Christopher Race; Fritz Körmann; Martin Friák; R. Schäublin; Jörg Neugebauer; G. Eggeler

MMM2014, 7th International Conference on Multiscale Materials Modeling#N# | 2014

Atomistic study of dislocation mobility and obstacle hardening in bcc-Fe: versatility of embedded atom method potentials

Seyed Masood Hafez Haghighat; R. Schäublin; Johann von Pezold; Christopher Race; Fritz Körmann; Martin Friák; Franz Roters; Dierk Raabe

conference on multimedia modeling | 2012

Scale bridging modeling of hydrogen embrittlement

Robert Spatschek; Dominique Korbmacher; Johann von Pezold; Claas Hüter; Steffen Brinckmann; Jörg Neugebauer

Archive | 2011

Determining the Elasticity of Materials Employing Quantum-mechanical Approaches: From the Electronic

Martin Friák; Tilmann Hickel; Fritz Körmann; A. Udyansky; Alan S. Dick; Johann von Pezold; David Ma; O. Kim; William Art Counts; Mojmír Šob; Terrance W. Gebhardt; Jonathan Schneider; Dierk Raabe; Jörg Neugebauer

Acta Materialia | 2011