Abstract
Abstract
In the past several decades, the U3Si2 has received much attention for the development of accident tolerant fuel in light water reactors because of its superior thermal conductivity and higher uranium density. In this study, density functional theory calculations have been carried out to study the occupation and diffusion behaviors of fission products Xe and Cs in U3Si2. It is revealed that the occupation sites of Xe and Cs depend on the chemical environment, and both of Xe and Cs are favorable to substitute for U or Si sites. The diffusions of Xe and Cs in U3Si2 are predicted to be via the vacancy mechanism and both of Xe and Cs form cluster easily. As compared with Cs, the Xe exhibits a smaller solubility, faster diffusion as well as stronger clustering tendency, which may cause larger bubble size for Xe than Cs under the same conditions in U3Si2. The differences in the diffusion behaviors between Xe and Cs mainly result from their different valence electronic configurations and different atomic radii.
Funder
NSAF Joint Foundation of China
National Major Science and Technology Program of China
National Key R&D Program of China
CGN Innovation Strategic Project
High-safety ATF Engineering Laboratory Program of ShenZhen
Subject
Condensed Matter Physics,General Materials Science
Cited by
5 articles.
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