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Philosophical Magazine Volume 90, 2010 - Issue 34
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Original Articles

High-pressure torsion-induced grain growth and detwinning in cryomilled Cu powders

Haiming Wen Department of Chemical Engineering and Materials Science, University of California, Davis, CA 95616, USA
,
Yonghao Zhao Department of Chemical Engineering and Materials Science, University of California, Davis, CA 95616, USA
,
Ying Li Department of Chemical Engineering and Materials Science, University of California, Davis, CA 95616, USA
,
Osman Ertorer Department of Chemical Engineering and Materials Science, University of California, Davis, CA 95616, USA
,
Konstantin M. Nesterov Institute of Physics of Advanced Materials, Ufa State Aviation Technical University, Ufa 450000, Russia
,
Rinat K. Islamgaliev Institute of Physics of Advanced Materials, Ufa State Aviation Technical University, Ufa 450000, Russia
,
Ruslan Z. Valiev Institute of Physics of Advanced Materials, Ufa State Aviation Technical University, Ufa 450000, Russia
&
Enrique J. Lavernia Department of Chemical Engineering and Materials Science, University of California, Davis, CA 95616, USACorrespondence[email protected]
 show all
Pages 4541-4550 | Received 10 Jun 2010, Accepted 04 Aug 2010, Published online: 04 Oct 2010
 
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Abstract

Two mechanisms for deformation-induced grain growth in nanostructured metals have been proposed, including grain rotation-induced grain coalescence and stress-coupled grain boundary (GB) migration. A study is reported in which significant grain growth occurred from an average grain size of 46 nm to 90 nm during high pressure torsion (HPT) of cryomilled nanocrystalline Cu powders. Careful microstructural examination ascertained that grain rotation-induced grain coalescence is mainly responsible for the grain growth during HPT. Furthermore, a grain size dependence of the grain growth mechanisms was uncovered: grain rotation and grain coalescence dominate at nanocrystalline grain sizes, whereas stress-coupled GB migration prevails at ultrafine grain sizes. In addition, detwinning of the preexisting deformation twins was observed during HPT of the cryomilled Cu powders. The mechanism of detwinning for deformation twins was proposed to be similar to that for growth twins.

Acknowledgement

The authors would like to acknowledge financial support by the Office of Naval Research (Grant No. ONR N00014-08-1-0405).

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