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Atomic-scale observation of nucleation- and growth-controlled deformation twinning in body-centered cubic nanocrystals

Li Zhong, Yin Zhang, Xiang Wang, Ting Zhu () and Scott X. Mao ()
Additional contact information
Li Zhong: University of Pittsburgh
Yin Zhang: Georgia Institute of Technology
Xiang Wang: University of Pittsburgh
Ting Zhu: Georgia Institute of Technology
Scott X. Mao: University of Pittsburgh

Nature Communications, 2024, vol. 15, issue 1, 1-9

Abstract: Abstract Twinning is an essential mode of plastic deformation for achieving superior strength and ductility in metallic nanostructures. It has been generally believed that twinning-induced plasticity in body-centered cubic (BCC) metals is controlled by twin nucleation, but facilitated by rapid twin growth once the nucleation energy barrier is overcome. By performing in situ atomic-scale transmission electron microscopy straining experiments and atomistic simulations, we find that deformation twinning in BCC Ta nanocrystals larger than 15 nm in diameter proceeds by reluctant twin growth, resulting from slow advancement of twinning partials along the boundaries of finite-sized twin structures. In contrast, reluctant twin growth can be obviated by reducing the nanocrystal diameter to below 15 nm. As a result, the nucleated twin structure penetrates quickly through the cross section of nanocrystals, enabling fast twin growth via facile migration of twin boundaries leading to large uniform plastic deformation. The present work reveals a size-dependent transition in the nucleation- and growth-controlled twinning mechanism in BCC metals, and provides insights for exploiting twinning-induced plasticity and breaking strength-ductility limits in nanostructured BCC metals.

Date: 2024
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DOI: 10.1038/s41467-024-44837-8

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