Laszlo J. Kecskes scite author profile

Dislocation interaction with and accumulation at twin boundaries have been reported to significantly improve the strength and ductility of nanostructured face-centered cubic (fcc) metals and alloys. Here we systematically describe plausible dislocation interactions at twin boundaries. Depending on the characteristics of the dislocations and the driving stress, possible dislocation reactions at twin boundaries include cross-slip into the twinning plane to cause twin growth or de-twinning, formation of a sessile stair-rod dislocation at the twin boundary, and transmission across the twin boundary. The energy barriers for these dislocation reactions are described and compared.

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Adiabatic shear banding in ultrafine-grained Fe processed by severe plastic deformation

Wei

et al. 2004

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Microstructure and mechanical properties of super-strong nanocrystalline tungsten processed by high-pressure torsion

et al. 2006

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Grain size stabilization of nanocrystalline copper at high temperatures by alloying with tantalum

Darling

Roberts

Mishin

et al. 2013

Journal of Alloys and Compounds

151

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Laszlo J. Kecskes

Tensile properties of in situ consolidated nanocrystalline Cu

Dislocation–twin interactions in nanocrystalline fcc metals

Adiabatic shear banding in ultrafine-grained Fe processed by severe plastic deformation

Microstructure and mechanical properties of super-strong nanocrystalline tungsten processed by high-pressure torsion

Grain size stabilization of nanocrystalline copper at high temperatures by alloying with tantalum

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