Point defect modeling in materials: coupling ab initio and elasticity approaches
TLDR
In this article, an approach coupling ab initio calculations and linear elasticity theory is proposed to obtain the properties of an isolated point defect for reduced supercell sizes for three problematic cases: the self-interstitial in zirconium, clusters of selfinterstitials in iron, and the neutral vacancy in silicon.Abstract:
Modeling point defects at an atomic scale requires careful treatment of the long-range atomic relaxations. This elastic field can strongly affect point defect properties calculated in atomistic simulations because of the finite size of the system under study. This is an important restriction for ab initio methods which are limited to a few hundred atoms. We propose an original approach coupling ab initio calculations and linear elasticity theory to obtain the properties of an isolated point defect for reduced supercell sizes. The reliability and benefit of our approach are demonstrated for three problematic cases: the self-interstitial in zirconium, clusters of self-interstitials in iron, and the neutral vacancy in silicon.read more
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Mechanistic origin and prediction of enhanced ductility in magnesium alloys.
TL;DR: A quantitative theory establishes the conditions for ductility as a function of alloy composition in very good agreement with experiments on many existing magnesium alloys, and the solute-enhanced cross-slip mechanism is confirmed by transmission electron microscopy observations in magnesium-yttrium.
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Interfacial segregation and grain boundary embrittlement: An overview and critical assessment of experimental data and calculated results
TL;DR: In this article, the authors summarize the available data on interfacial segregation and embrittlement of various solutes in nickel and bcc iron and critically discuss their reliability, assessing also limitations of individual approaches employed to determine the values of segregation and strengthening/embrittling energies, such as density functional theory, Monte Carlo method, molecular statics and dynamics and tight binding on the theoretical side, and Auger electron spectroscopy, 3D tomographic atom probe, and electron microscopy techniques on the experimental side.
Journal ArticleDOI
Lattice swelling and modulus change in a helium-implanted tungsten alloy: X-ray micro-diffraction, surface acoustic wave measurements, and multiscale modelling
Felix Hofmann,Duc Nguyen-Manh,Mark R. Gilbert,Christian E. Beck,Jeffrey K. Eliason,Alexei Maznev,Wing Kam Liu,David E.J. Armstrong,Keith A. Nelson,Sergei L. Dudarev +9 more
TL;DR: In this paper, the authors measured lattice swelling and elastic modulus changes in a W-1% Re alloy after implantation with 3110 amp of helium and applied a multiscale model, combining elasticity and density functional theory, to the interpretation of observations.
Journal ArticleDOI
3D lattice distortions and defect structures in ion-implanted nano-crystals
Felix Hofmann,Edmund Tarleton,Ross Harder,Nicholas W. Phillips,Pui-Wai Ma,Jesse N. Clark,Ian K. Robinson,Brian Abbey,Wenjun Liu,Christian E. Beck +9 more
TL;DR: This work examines the defects caused by FIB in initially pristine objects using Bragg Coherent X-ray Diffraction Imaging and finds that every use of FIB causes large lattice distortions, consistent with a damage microstructure dominated by vacancies.
Posted Content
Lattice swelling and modulus change in a helium-implanted tungsten alloy: X-ray micro-diffraction, surface acoustic wave measurements, and multiscale modelling
Felix Hofmann,Duc Nguyen-Manh,Christian E. Beck,Jeffrey K. Eliason,Mark R. Gilbert,Alexei Maznev,Wing Kam Liu,David E.J. Armstrong,Keith A. Nelson,Sergei L. Dudarev +9 more
TL;DR: In this paper, a multiscale elasticity, molecular dynamics, and density functional theory model is applied to the interpretation of X-ray micro-diffraction and surface acoustic wave spectroscopy, measuring lattice swelling and elastic modulus changes in a W-1%Re alloy after implantation with 3110 appm of helium.
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