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Journal of Materials Science

Erschienen in:

01.12.2015 | Original Paper

Size effect and atomistic deformation mechanisms of hierarchically nanotwinned fcc metals under nanoindentation

verfasst von: Fuping Yuan, Xiaolei Wu

Erschienen in: Journal of Materials Science | Ausgabe 23/2015

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Abstract

Molecular dynamics simulations have been performed to investigate the atomistic deformation mechanisms of hierarchically nanotwinned Cu under nanoindentation. When the grain size (d) and the spacing of primary twins (λ ₁) are fixed, the hardness is observed to increase with decreasing spacing of secondary twins (λ ₂) until a critical λ ₂, and then decrease with further decreasing λ ₂. The size effect of λ ₂ on the plastic area beneath the indenter is observed to be exactly opposite to the trend of the size effect on the hardness. There exist two plastic zones beneath the indenter: the severe plastic zone and the moderate plastic zone. In the severe plastic zone, high density of dislocation networks are observed and the deformation mechanisms are independent of λ ₂. The deformation mechanisms in the moderate plastic zone are highly dependent on the λ ₂, which is the origin of the size effect on the hardness. Below the critical λ ₂, the deformation mechanisms are dominated by the softening mechanisms with decreasing λ ₂: (i) detwinning of secondary twins and (ii) nucleation and propagation of partial dislocations with a small angle to the boundaries of secondary twins. Above the critical λ ₂, the deformation mechanisms are dominated by the strengthening mechanisms with decreasing λ ₂: partial dislocations are blocked by the boundaries of primary twins or secondary twins.

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Titel: Size effect and atomistic deformation mechanisms of hierarchically nanotwinned fcc metals under nanoindentation
verfasst von: Fuping Yuan
Xiaolei Wu
Publikationsdatum: 01.12.2015
Verlag: Springer US
Erschienen in: Journal of Materials Science / Ausgabe 23/2015
Print ISSN: 0022-2461
Elektronische ISSN: 1573-4803
DOI: https://doi.org/10.1007/s10853-015-9310-8

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