An energy analysis of nanovoid nucleation in nanocrystalline materials with grain boundary sliding accommodations

Lu Wang; Jianqiu Zhou; Shu Zhang; Yingguang Liu; Hongxi Liu; Ying Wang; Shuhong Dong

doi:10.1557/jmr.2013.383

An energy analysis of nanovoid nucleation in nanocrystalline materials with grain boundary sliding accommodations

Lu Wang, Jianqiu Zhou, Shu Zhang, Yingguang Liu, Hongxi Liu, Ying Wang, Shuhong Dong

School of energy science and engineering

Research output: Contribution to journal › Article › peer-review

2 Scopus citations

Abstract

A theoretical model of nanovoid nucleation at triple junctions in nanocrystalline materials is developed in this article. The sliding of grain boundaries (GBs) meeting at triple junctions, which can be attributed to the gliding of GB dislocations (GBDs), provides the driving force for nanovoid nucleation. The GB sliding is accommodated by the emission of partial dislocations from GBs as well as GB diffusion. The corresponding energy characteristics of the pile-ups of GBDs, the emission of partial dislocations from the GBs, and GB diffusion are calculated, respectively. Furthermore, an energy balance method to calculate the nucleation of nanovoid at triple junctions is studied. The analysis demonstrates that the nucleation of the triple junction nanovoid depends mainly on the applied stress, the GB length (length of the pile-up), the GB structures, and the GB sliding accommodations.

Original language	English
Pages (from-to)	277-287
Number of pages	11
Journal	Journal of Materials Research
Volume	29
Issue number	2
DOIs	https://doi.org/10.1557/jmr.2013.383
State	Published - 2014

Keywords

dislocations
grain boundary sliding
nanocrystalline materials
void nucleation

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10.1557/jmr.2013.383

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abstract = "A theoretical model of nanovoid nucleation at triple junctions in nanocrystalline materials is developed in this article. The sliding of grain boundaries (GBs) meeting at triple junctions, which can be attributed to the gliding of GB dislocations (GBDs), provides the driving force for nanovoid nucleation. The GB sliding is accommodated by the emission of partial dislocations from GBs as well as GB diffusion. The corresponding energy characteristics of the pile-ups of GBDs, the emission of partial dislocations from the GBs, and GB diffusion are calculated, respectively. Furthermore, an energy balance method to calculate the nucleation of nanovoid at triple junctions is studied. The analysis demonstrates that the nucleation of the triple junction nanovoid depends mainly on the applied stress, the GB length (length of the pile-up), the GB structures, and the GB sliding accommodations.",

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T1 - An energy analysis of nanovoid nucleation in nanocrystalline materials with grain boundary sliding accommodations

AU - Wang, Lu

AU - Zhou, Jianqiu

AU - Zhang, Shu

AU - Liu, Yingguang

AU - Liu, Hongxi

AU - Wang, Ying

AU - Dong, Shuhong

PY - 2014

Y1 - 2014

N2 - A theoretical model of nanovoid nucleation at triple junctions in nanocrystalline materials is developed in this article. The sliding of grain boundaries (GBs) meeting at triple junctions, which can be attributed to the gliding of GB dislocations (GBDs), provides the driving force for nanovoid nucleation. The GB sliding is accommodated by the emission of partial dislocations from GBs as well as GB diffusion. The corresponding energy characteristics of the pile-ups of GBDs, the emission of partial dislocations from the GBs, and GB diffusion are calculated, respectively. Furthermore, an energy balance method to calculate the nucleation of nanovoid at triple junctions is studied. The analysis demonstrates that the nucleation of the triple junction nanovoid depends mainly on the applied stress, the GB length (length of the pile-up), the GB structures, and the GB sliding accommodations.

AB - A theoretical model of nanovoid nucleation at triple junctions in nanocrystalline materials is developed in this article. The sliding of grain boundaries (GBs) meeting at triple junctions, which can be attributed to the gliding of GB dislocations (GBDs), provides the driving force for nanovoid nucleation. The GB sliding is accommodated by the emission of partial dislocations from GBs as well as GB diffusion. The corresponding energy characteristics of the pile-ups of GBDs, the emission of partial dislocations from the GBs, and GB diffusion are calculated, respectively. Furthermore, an energy balance method to calculate the nucleation of nanovoid at triple junctions is studied. The analysis demonstrates that the nucleation of the triple junction nanovoid depends mainly on the applied stress, the GB length (length of the pile-up), the GB structures, and the GB sliding accommodations.

KW - dislocations

KW - grain boundary sliding

KW - nanocrystalline materials

KW - void nucleation

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DO - 10.1557/jmr.2013.383

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An energy analysis of nanovoid nucleation in nanocrystalline materials with grain boundary sliding accommodations

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