Shodai Sakurada scite author profile

In this study, we measured deuterium (D) gas-driven permeation through tungsten (W) foils that had been pre-damaged by helium ions (He +). The goal of this work was to determine how ion-induced damage affects hydrogen isotope permeation. At 873 K, the D permeability for W irradiated by 3.0 keV He + was approximately one order of magnitude lower than that for undamaged W. This difference diminished with increasing temperature. Even after heating to 1173 K, the permeability returned to less than half of the value measured for undamaged W. We propose that this is due to nucleation of He bubbles near the surface which potentially serve as a barrier to diffusion deeper into the bulk. Exposure at higher temperatures shows that the D permeability and diffusion coefficients return to levels observed for undamaged material. It is possible that these effects are linked to annealing of defects introduced by ion damage, and whether the defects are stabilized by the presence of trapped He.

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Annealing effects on deuterium retention behavior in damaged tungsten

Sakurada

Yuyama

Uemura

et al. 2016

Nuclear Materials and Energy

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Influence of carbon-dominated deposition layer on He retention and desorption in tungsten

Fujita

Yajima

et al. 2016

Fusion Engineering and Design

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Shodai Sakurada

Crystallization and deuterium permeation behaviors of yttrium oxide coating prepared by metal organic decomposition

Analyses of microstructure, composition and retention of hydrogen isotopes in divertor tiles of JET with the ITER-like wall

Effect of helium irradiation on deuterium permeation behavior in tungsten

Annealing effects on deuterium retention behavior in damaged tungsten

Influence of carbon-dominated deposition layer on He retention and desorption in tungsten

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