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W2795194478 abstract "In intergranular fractures, cracks tend to propagate along grain boundaries (GBs) even under mixed-mode loadings. To quantitatively characterize the mixed-mode intergranular fractures, the stress intensity factors (SIFs) of modes I and II at the crack tip need to be found individually. In this study, an atomic-scale mode separation method is developed to determine individual SIFs from the molecular dynamics (MD) simulation of the mixed-mode intergranular fracture in crystalline metals, for which the atomic-scale J-based mutual integral and asymptotic singular field (i.e., K-field) near a semi-infinite interfacial crack in an anisotropic bimaterial as an auxiliary field are used. Additionally, atomic-level J and M integrals are also performed to determine the energy release rate and the position of a crack tip under the applied mixed-mode loadings, respectively. As a model problem, the mixed-mode fracture along GBs of nickel is investigated to demonstrate that the present atomic-scale mode separation method is useful to examine mixed-mode intergranular fracture behaviors of polycrystalline metals at the atomic scale." @default.
W2795194478 created "2018-04-06" @default.
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W2795194478 date "2018-08-01" @default.
W2795194478 modified "2023-09-23" @default.
W2795194478 title "Atomic-scale mode separation for mixed-mode intergranular fracture in polycrystalline metals" @default.
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W2795194478 cites W1985412666 @default.
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W2795194478 cites W1991163193 @default.
W2795194478 cites W1991794210 @default.
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W2795194478 cites W2000730512 @default.
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W2795194478 cites W2005621973 @default.
W2795194478 cites W2006068306 @default.
W2795194478 cites W2007156655 @default.
W2795194478 cites W2009243985 @default.
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W2795194478 cites W2016751541 @default.
W2795194478 cites W2019465613 @default.
W2795194478 cites W2020109042 @default.
W2795194478 cites W2026083510 @default.
W2795194478 cites W2034326250 @default.
W2795194478 cites W2037128467 @default.
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W2795194478 cites W2053709295 @default.
W2795194478 cites W2056826174 @default.
W2795194478 cites W2071417654 @default.
W2795194478 cites W2073530001 @default.
W2795194478 cites W2075990549 @default.
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W2795194478 cites W2084982735 @default.
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W2795194478 cites W2134497066 @default.
W2795194478 cites W2135124335 @default.
W2795194478 cites W2198443921 @default.
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W2795194478 cites W2589661137 @default.
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W2795194478 doi "https://doi.org/10.1016/j.tafmec.2018.03.014" @default.
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