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The evolution of interaction between grain boundary and irradiation-induced point defects: Symmetric tilt GB in tungsten

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Indexed by:期刊论文

Date of Publication:2018-03-01

Journal:JOURNAL OF NUCLEAR MATERIALS

Included Journals:SCIE、EI

Volume:500

Page Number:42-49

ISSN No.:0022-3115

Key Words:Tungsten; Symmetric tilt grain boundary; Irradiation-induced point defects; Molecular dynamics

Abstract:Molecular dynamics method is used and scheme of calculational tests is designed. The atomic evolution view of the interaction between grain boundary (GB) and irradiation-induced point defects is given in six symmetric tilt GB structures of bcc tungsten with the energy of the primary knock-on atom (PKA) E-PKA of 3 and 5 keV and the simulated temperature of 300 K. During the collision cascade with GB structure there are synergistic mechanisms to reduce the number of point defects: one is vacancies recombine with interstitials, and another is interstitials diffuse towards the GB with vacancies almost not move. The larger the ratio of the peak defect zone of the cascades overlaps with the GB region, the statistically relative smaller the number of surviving point defects in the grain interior (GI); and when the two almost do not overlap, vacancy-intensive area generally exists nearby GBs, and has a tendency to move toward GB with the increase of E-PKA. In contrast, the distribution of interstitials is relatively uniform nearby GBs and is affected by the E-PKA far less than the vacancy. The GB has a bias-absorption effect on the interstitials compared with vacancies. It shows that the number of surviving vacancies statistically has increasing trend with the increase of the distance between PKA and GB. While the number of surviving interstitials does not change much, and is less than the number of interstitials in the single crystal at the same conditions. The number of surviving vacancies in the GI is always larger than that of interstitials. The GB local extension after irradiation is observed for which the interstitials absorbed by the GB may be responsible. The designed scheme of calculational tests in the paper is completely applicable to the investigation of the interaction between other types of GBs and irradiation-induced point defects. (C) 2017 Elsevier B.V. All rights reserved.

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