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Comparison of the deuterium permeability of copper, CuCrZr, and Cu layers

In order to estimate the fuel loss in ITER and further future fusion devices, the deuterium permeation through different wall and structural materials are studied. In order to determine the effective permeability, gas-driven deuterium permeation measurements are performed on Cu and ITER grade CuCrZr...

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Bibliographic Details
Published in:Nuclear materials and energy 2022-10, Vol.33, p.101256, Article 101256
Main Authors: Houben, A., Rasiński, M., Brezinsek, S., Linsmeier, Ch
Format: Article
Language:English
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Summary:In order to estimate the fuel loss in ITER and further future fusion devices, the deuterium permeation through different wall and structural materials are studied. In order to determine the effective permeability, gas-driven deuterium permeation measurements are performed on Cu and ITER grade CuCrZr. The obtained permeabilites for Cu and ITER grade CuCrZr are very similar and in agreement to literature values for Cu. For a better estimation for fusion reactor components, combined material samples are studied. Cu layers were applied on steel substrates by magnetron sputter deposition. With these studies, the influence of interfaces and microstructure on the hydrogen permeation is investigated. Our study reveals that in the case of Cu layered steel substrates the influence of the interface on the permeation flux is minor compared to the influence of the microstructure on the permeability. The Cu layer permeability is around one order of magnitude smaller than the Cu bulk permeability in the temperature range between 300∘C and 550∘C. •Study of the deuterium permeation through first wall materials of fusion devices•Cu, CuCrZr-IG, and Cu layers on ITER steel are prepared, characterized and analyzed•The influence of an interface on the permeation flux was studied•The permeability of Cu layers is one order of magnitude lower than of bulk Cu•The reduction of the permeability is mainly due to the microstructure of the layer
ISSN:2352-1791
2352-1791
DOI:10.1016/j.nme.2022.101256