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In situ atomic-scale observation of grain size and twin thickness effect limit in twin-structural nanocrystalline platinum.


ABSTRACT: Twin-thickness-controlled plastic deformation mechanisms are well understood for submicron-sized twin-structural polycrystalline metals. However, for twin-structural nanocrystalline metals where both the grain size and twin thickness reach the nanometre scale, how these metals accommodate plastic deformation remains unclear. Here, we report an integrated grain size and twin thickness effect on the deformation mode of twin-structural nanocrystalline platinum. Above a ?10?nm grain size, there is a critical value of twin thickness at which the full dislocation intersecting with the twin plane switches to a deformation mode that results in a partial dislocation parallel to the twin planes. This critical twin thickness value varies from ?6 to 10?nm and is grain size-dependent. For grain sizes between ?10 to 6?nm, only partial dislocation parallel to twin planes is observed. When the grain size falls below 6?nm, the plasticity switches to grain boundary-mediated plasticity, in contrast with previous studies, suggesting that the plasticity in twin-structural nanocrystalline metals is governed by partial dislocation activities.

SUBMITTER: Wang L 

PROVIDER: S-EPMC7054541 | biostudies-literature | 2020 Mar

REPOSITORIES: biostudies-literature

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In situ atomic-scale observation of grain size and twin thickness effect limit in twin-structural nanocrystalline platinum.

Wang Lihua L   Du Kui K   Yang Chengpeng C   Teng Jiao J   Fu Libo L   Guo Yizhong Y   Zhang Ze Z   Han Xiaodong X  

Nature communications 20200303 1


Twin-thickness-controlled plastic deformation mechanisms are well understood for submicron-sized twin-structural polycrystalline metals. However, for twin-structural nanocrystalline metals where both the grain size and twin thickness reach the nanometre scale, how these metals accommodate plastic deformation remains unclear. Here, we report an integrated grain size and twin thickness effect on the deformation mode of twin-structural nanocrystalline platinum. Above a ∼10 nm grain size, there is a  ...[more]

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