Principal physical parameters characterizing the interactions between irradiation-induced point defects and several tilt symmetric grain boundaries in Fe, Mo and W

Using molecular-statics, we investigate principal physical parameters characterizing the binding of vacancies and interstitials with grain boundaries (GBs), and their annihilation near GBs in iron, molybdenum and tungsten. Binding energies strongly correlate with GB energies averagely and have a gen...

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Veröffentlicht in:	Journal of nuclear materials 2014-01, Vol.444 (1-3), p.229-236
Hauptverfasser:	Li, Xiangyan, Liu, Wei, Xu, Yichun, Liu, C.S., Fang, Q.F., Pan, B.C., Chen, Jun-Ling, Luo, G.-N., Wang, Zhiguang
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Sprache:	eng
Schlagworte:	Condensed matter: structure, mechanical and thermal properties Exact sciences and technology Metals and alloys Physics Radiation effects on specific materials Structure of solids and liquids crystallography
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container_end_page	236
container_issue	1-3
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container_title	Journal of nuclear materials
container_volume	444
creator	Li, Xiangyan Liu, Wei Xu, Yichun Liu, C.S. Fang, Q.F. Pan, B.C. Chen, Jun-Ling Luo, G.-N. Wang, Zhiguang
description	Using molecular-statics, we investigate principal physical parameters characterizing the binding of vacancies and interstitials with grain boundaries (GBs), and their annihilation near GBs in iron, molybdenum and tungsten. Binding energies strongly correlate with GB energies averagely and have a general level when scaled by the bulk defect formation energy. Defect diffusion is enhanced near the GB. The diffusion barrier of the vacancy gradually decreases as it approaches to the GB. For interstitials, there exist several layers near the GB in which the absorption of interstitials is spontaneous and out of which orientation-dependent. For the interstitial-rich GB, the vacancy near the GB can be annihilated at a low barrier, independent of the system. The GB influence range is limited of 1.0–2.0nm from the GB. Our obtained principal physical parameters may be applied to build the master framework for defects’ generation, transport and fate and thus to evaluate the damage rate in nano/poly-crystalline materials.
doi_str_mv	10.1016/j.jnucmat.2013.09.046
format	Article
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subjects	Condensed matter: structure, mechanical and thermal properties Exact sciences and technology Metals and alloys Physics Radiation effects on specific materials Structure of solids and liquids crystallography
title	Principal physical parameters characterizing the interactions between irradiation-induced point defects and several tilt symmetric grain boundaries in Fe, Mo and W
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