The Stability of Tritium Permeation Barriers and the Self-Healing Capability of Aluminide Coatings in Liquid Pb-17Li

Peter Hubberstey; Tony Sample; Anne Terlain

doi:dx.doi.org/10.13182/FST95-A30571

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The Stability of Tritium Permeation Barriers and the Self-Healing Capability of Aluminide Coatings in Liquid Pb-17Li

Peter Hubberstey, Tony Sample, Anne Terlain

Fusion Science and Technology / Volume 28 / Number 3P2 / October 1995 / Pages 1194-1199

Tritium Properties and Interaction with Material / Proceedings of the Fifth Topical Meeting on Tritium Technology In Fission, Fusion, and Isotopic Applications Belgirate, Italy May 28-June 3, 1995 / dx.doi.org/10.13182/FST95-A30571

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The thermodynamic stabilities of various barrier materials and the self-healing of aluminide coatings in oxygen saturated Pb-17Li have been evaluated. Binary nitrides and carbides are stable, but binary oxides display diverse behaviour; Al₂O₃ and MgO are stable, Cr₂O₃ is unstable to reduction to chromium metal and SiO₂ exhibits intermediate properties. Ternary oxides behave similarly, but are intrinsically more stable, their stabilities increasing with Li₂O content. Self-healing of aluminide barriers should occur to form either Al₂O₃ or LiAlO₂, the latter being favoured. For Fe-rich Fe-Al solid solutions, self-healing is dependent on their aluminium content; at 723 K, Al₂O₃ or LiAlO₂ formation only occurs for x_Al≥1.69 mol% Al or x_Al≥0.20 mol% Al, respectively.