Frontiers in Materials (Jan 2023)

The promotion effect of uniaxial strain on hydrogen aggregation in tungsten

  • Fang-Fei Ma,
  • Fang-Fei Ma,
  • Yu-Hao Li,
  • Yu-Hao Li,
  • Qing-Yuan Ren,
  • Qing-Yuan Ren,
  • Hong-Bo Zhou,
  • Hong-Bo Zhou,
  • Guang-Hong Lu,
  • Guang-Hong Lu

DOI
https://doi.org/10.3389/fmats.2022.1122135
Journal volume & issue
Vol. 9

Abstract

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The aggregation behavior of hydrogen (H) isotopes after low-energy plasma irradiation is particularly important for tungsten (W) in future fusion devices. Here, using the first-principles calculation, we demonstrated an interesting strain effect that may drive the planar aggregation of interstitial H atoms in W. Although there are attractive interactions between H atoms, the spontaneous nucleation of these platelet-like H clusters in strain-free W appears impossible even at high H concentrations (up to 0.1 at.%) because of the extremely low configurational entropy. However, applied uniaxial strain significantly increased the binding energy of H platelets and enabled planar H clusters to form. These results suggest that uniaxial strain enhances the nucleation and growth of H platelets in W, regardless of whether it is a compressive or tensile strain. Moreover, the binding energy of one-layer H clusters was lower than that of parallel H platelets, implying that the formation of multi-layer H clusters in W and their stability is also promoted by uniaxial strain. Meanwhile, the presence of planar H clusters dramatically reduced the vacancy formation energy in W, which in turn provided an extra trapping site to accommodate excessive H atoms. These results provide an important reference for understanding the H evolution in W-PFMs.

Keywords