Interactions between grain boundary and compositional domain boundary during spinodal decomposition in nanocrystalline alloys

Zhijun Wang; Jincheng Wang; Sai Tang; Yaolin Guo; Junjie Li; Yaohe Zhou; Zhongming Zhang

doi:10.1080/14786435.2013.765982

Interactions between grain boundary and compositional domain boundary during spinodal decomposition in nanocrystalline alloys

Zhijun Wang, Jincheng Wang, Sai Tang, Yaolin Guo, Junjie Li, Yaohe Zhou, Zhongming Zhang

School of Materials Sience and Engineering

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

6 Scopus citations

Abstract

Due to the large grain boundary (GB) volume fraction in nanocrystalline materials, interactions between GB and compositional domain boundary (CDB) play an important role in determining the nanoscale-modulated domain structures during spinodal decomposition. In the present paper, the phase field crystal model is employed to investigate the interactions between GB and CDB. Simulation results show that CDB coarsening can drive the GB migration and bring the impingement of particles with different orientations; the large volume fraction of GB can increase the dislocation volume fraction in CDBs but does not change its proportion in the whole defects number; the crossover point of the coarsening dynamic comes from the block effect of GB with large volume fraction.

Original language	English
Pages (from-to)	2122-2132
Number of pages	11
Journal	Philosophical Magazine
Volume	93
Issue number	17
DOIs	https://doi.org/10.1080/14786435.2013.765982
State	Published - 1 Jun 2013

Keywords

compositional domain boundary
grain boundary
nanocrystalline alloys
phase field crystal method
spinodal decomposition

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10.1080/14786435.2013.765982

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title = "Interactions between grain boundary and compositional domain boundary during spinodal decomposition in nanocrystalline alloys",

abstract = "Due to the large grain boundary (GB) volume fraction in nanocrystalline materials, interactions between GB and compositional domain boundary (CDB) play an important role in determining the nanoscale-modulated domain structures during spinodal decomposition. In the present paper, the phase field crystal model is employed to investigate the interactions between GB and CDB. Simulation results show that CDB coarsening can drive the GB migration and bring the impingement of particles with different orientations; the large volume fraction of GB can increase the dislocation volume fraction in CDBs but does not change its proportion in the whole defects number; the crossover point of the coarsening dynamic comes from the block effect of GB with large volume fraction.",

keywords = "compositional domain boundary, grain boundary, nanocrystalline alloys, phase field crystal method, spinodal decomposition",

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T1 - Interactions between grain boundary and compositional domain boundary during spinodal decomposition in nanocrystalline alloys

AU - Wang, Zhijun

AU - Wang, Jincheng

AU - Tang, Sai

AU - Guo, Yaolin

AU - Li, Junjie

AU - Zhou, Yaohe

AU - Zhang, Zhongming

PY - 2013/6/1

Y1 - 2013/6/1

N2 - Due to the large grain boundary (GB) volume fraction in nanocrystalline materials, interactions between GB and compositional domain boundary (CDB) play an important role in determining the nanoscale-modulated domain structures during spinodal decomposition. In the present paper, the phase field crystal model is employed to investigate the interactions between GB and CDB. Simulation results show that CDB coarsening can drive the GB migration and bring the impingement of particles with different orientations; the large volume fraction of GB can increase the dislocation volume fraction in CDBs but does not change its proportion in the whole defects number; the crossover point of the coarsening dynamic comes from the block effect of GB with large volume fraction.

AB - Due to the large grain boundary (GB) volume fraction in nanocrystalline materials, interactions between GB and compositional domain boundary (CDB) play an important role in determining the nanoscale-modulated domain structures during spinodal decomposition. In the present paper, the phase field crystal model is employed to investigate the interactions between GB and CDB. Simulation results show that CDB coarsening can drive the GB migration and bring the impingement of particles with different orientations; the large volume fraction of GB can increase the dislocation volume fraction in CDBs but does not change its proportion in the whole defects number; the crossover point of the coarsening dynamic comes from the block effect of GB with large volume fraction.

KW - compositional domain boundary

KW - grain boundary

KW - nanocrystalline alloys

KW - phase field crystal method

KW - spinodal decomposition

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Interactions between grain boundary and compositional domain boundary during spinodal decomposition in nanocrystalline alloys

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