Interaction of carbon with microstructural defects in a W-Re matrix: An ab initio assessment

Bakaev, A.;Zinovev, Aleksandr;Terentyev, D.;Bonny, G.;Zhurkin, E. E.;et.al.
(2019) Journal of Applied Physics — Vol. 126, n° 7, p. 75110 (2019)

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Authors
  • Bakaev, A.orcid-logo
    Author
  • Zinovev, Aleksandrorcid-logoUCLouvain
    Author
  • Terentyev, D.
    Author
  • Bonny, G.
    Author
  • Yin, ChaoUCLouvain
    Author
  • Zhurkin, E. E.
    Author
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Abstract
The interaction of carbon atoms with point defects and the core of edge and screw dislocations with Burgers vector a0/2⟨111⟩ in W and a W-Re matrix is studied by means of ab initio calculations. The structure and energetics of the ground-state atomic configurations are presented and rationalized. It is found that di-vacancies, which are thermally unstable in pure W according to the state-of-the-art ab initio calculations, can nucleate at C and Re-C complexes, which fill the gap in the explanation of the emergence of nanovoids observed experimentally under irradiation. Also, on the basis of the recent experimental evidence and our calculations, the temperature ranges for the manifestation of the yield drop phenomenon, which is related to the obstruction of dislocation motion due to their decoration by impurities such as carbon, are revealed.
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Citations

Bakaev, A., Zinovev, A., Terentyev, D., Bonny, G., Yin, C., Castin, N., Mastrikov, Yu. A., & Zhurkin, E. E. (2019). Interaction of carbon with microstructural defects in a W-Re matrix: An ab initio assessment. Journal of Applied Physics, 126(7), 75110. https://doi.org/10.1063/1.5094441 (Original work published 2019)