Article ID | Journal | Published Year | Pages | File Type |
---|---|---|---|---|
5454448 | Journal of Nuclear Materials | 2017 | 15 Pages |
Abstract
Gamma-phase lithium aluminate (γ-LiAlO2) is a breeder material for tritium, a necessary substance for strategic stockpile and fusion power systems. A fundamental study of structural evolution and tritium diffusion in γ-LiAlO2 under displacive irradiation is needed to fully assess the material performance. This study utilizes ion implantation of protium (surrogate for tritium) and helium in γ-LiAlO2 single crystals at elevated temperatures to emulate the irradiation effects. The results show that at 573 K there are two distinct disorder saturation stages to 1 dpa without full amorphization; overlapping implantation of H2+ and He+ ions suggests possible formation of gas bubbles. For irradiation to 1021 H+/m2 (0.36 dpa at peak) at 773 K, amorphization occurs at surface with H diffusion and dramatic Li loss; the microstructure contains bubbles and cubic LiAl5O8 precipitates with sizes up to 200 nm or larger. In addition, significant H diffusion and release are observed during thermal annealing.
Related Topics
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Nuclear Energy and Engineering
Authors
Weilin Jiang, Jiandong Zhang, Libor Kovarik, Zihua Zhu, Lloyd Price, Jonathan Gigax, Elizabeth Castanon, Xuemei Wang, Lin Shao, David J. Senor,