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Migration of vacancies, He interstitials and He-vacancy clusters at grain boundaries in α-Fe

The dimer method for searching transition states has been used to systematically study possible migration paths of vacancies, He interstitials and He-vacancy (He/V) clusters at Σ11 {3 2 3} and Σ3 {1 1 1} grain boundaries (GBs) in α-Fe. Vacancies trapped at the GBs diffuse along the GBs with migratio...

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Bibliographic Details
Published in:Journal of nuclear materials 2009-04, Vol.386, p.390-394
Main Authors: Gao, F., Heinisch, H.L., Kurtz, R.J.
Format: Article
Language:English
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Summary:The dimer method for searching transition states has been used to systematically study possible migration paths of vacancies, He interstitials and He-vacancy (He/V) clusters at Σ11 {3 2 3} and Σ3 {1 1 1} grain boundaries (GBs) in α-Fe. Vacancies trapped at the GBs diffuse along the GBs with migration energies much less than that within the perfect crystal. Long-time dynamics simulations of diffusion pathways reveal that vacancies migrate one-dimensionally along specific directions in both GBs: directly along close-packed rows in the Σ3 GB, and in zigzag paths within the Σ11 GB. Also, dimer saddle point searches show that He interstitials can diffuse along the GBs with migration energies of 0.4–0.5 eV, similar to those of individual vacancies at the GBs, and the corresponding mechanisms are determined. The rate-controlling activation energy for migration of a He-divacancy cluster in the GBs determined using the dimer method is about 0.9 eV. This is comparable to the migration energy for a He-divacancy cluster in bulk α-Fe.
ISSN:0022-3115
1873-4820
DOI:10.1016/j.jnucmat.2008.12.159