Linking stress-driven microstructural evolution in nanocrystalline aluminium with grain boundary doping of oxygen

Nanocrystalline metals are ultra-strong because of the large fraction of material at the grain boundaries, but this also leads to instability under applied loads. Here, the authors deepen our understanding of this by linking stress-driven motion of grain boundaries to grain boundary chemistry.

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Autores principales: Mo-Rigen He, Saritha K. Samudrala, Gyuseok Kim, Peter J. Felfer, Andrew J. Breen, Julie M. Cairney, Daniel S. Gianola
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Lenguaje:EN
Publicado: Nature Portfolio 2016
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Acceso en línea:https://doaj.org/article/476a592415a44220883b54dfa25616e4
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spelling oai:doaj.org-article:476a592415a44220883b54dfa25616e42021-12-02T16:50:15ZLinking stress-driven microstructural evolution in nanocrystalline aluminium with grain boundary doping of oxygen10.1038/ncomms112252041-1723https://doaj.org/article/476a592415a44220883b54dfa25616e42016-04-01T00:00:00Zhttps://doi.org/10.1038/ncomms11225https://doaj.org/toc/2041-1723Nanocrystalline metals are ultra-strong because of the large fraction of material at the grain boundaries, but this also leads to instability under applied loads. Here, the authors deepen our understanding of this by linking stress-driven motion of grain boundaries to grain boundary chemistry.Mo-Rigen HeSaritha K. SamudralaGyuseok KimPeter J. FelferAndrew J. BreenJulie M. CairneyDaniel S. GianolaNature PortfolioarticleScienceQENNature Communications, Vol 7, Iss 1, Pp 1-9 (2016)
institution DOAJ
collection DOAJ
language EN
topic Science
Q
spellingShingle Science
Q
Mo-Rigen He
Saritha K. Samudrala
Gyuseok Kim
Peter J. Felfer
Andrew J. Breen
Julie M. Cairney
Daniel S. Gianola
Linking stress-driven microstructural evolution in nanocrystalline aluminium with grain boundary doping of oxygen
description Nanocrystalline metals are ultra-strong because of the large fraction of material at the grain boundaries, but this also leads to instability under applied loads. Here, the authors deepen our understanding of this by linking stress-driven motion of grain boundaries to grain boundary chemistry.
format article
author Mo-Rigen He
Saritha K. Samudrala
Gyuseok Kim
Peter J. Felfer
Andrew J. Breen
Julie M. Cairney
Daniel S. Gianola
author_facet Mo-Rigen He
Saritha K. Samudrala
Gyuseok Kim
Peter J. Felfer
Andrew J. Breen
Julie M. Cairney
Daniel S. Gianola
author_sort Mo-Rigen He
title Linking stress-driven microstructural evolution in nanocrystalline aluminium with grain boundary doping of oxygen
title_short Linking stress-driven microstructural evolution in nanocrystalline aluminium with grain boundary doping of oxygen
title_full Linking stress-driven microstructural evolution in nanocrystalline aluminium with grain boundary doping of oxygen
title_fullStr Linking stress-driven microstructural evolution in nanocrystalline aluminium with grain boundary doping of oxygen
title_full_unstemmed Linking stress-driven microstructural evolution in nanocrystalline aluminium with grain boundary doping of oxygen
title_sort linking stress-driven microstructural evolution in nanocrystalline aluminium with grain boundary doping of oxygen
publisher Nature Portfolio
publishDate 2016
url https://doaj.org/article/476a592415a44220883b54dfa25616e4
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