期刊
JOURNAL OF NUCLEAR MATERIALS
卷 574, 期 -, 页码 -出版社
ELSEVIER
DOI: 10.1016/j.jnucmat.2022.154218
关键词
Fuel cladding chemical interaction (FCCI); Cr and chromium nitride multi-coating; Direct and pulse currents; Cr electroplating; Hydrogen evolution crack; Plasma nitriding; Defect evolution
资金
- National Nuclear R&D program - Ministry of Science and ICT [RS-2022-00155198]
This study investigates the barrier properties of Cr and chromium nitride multi-coating in nuclear cladding applications, and finds that the current waveform plays a critical role in the final performance of the coating.
The introduction of a Cr and chromium nitride multi-coating barrier between the nuclear metallic fuel and the cladding is a potential candidate to mitigate fuel cladding chemical interaction (FCCI). Cr coatings were electroplated on HT9 disks using direct and pulse currents followed by plasma nitriding for synthe-sizing additional nitride coating. The pulse current induced Cr coatings revealed severe microstructural changes from crack-free to the abundance of cracks during the plasma nitriding due to phase transfor-mation during the plasma nitriding. The phase transformation of hexagonal CrH to cubic Cr occurred at a temperature as low as 110 degrees C resulting in the liberation of hydrogen pores agglomerated at Cr grain boundaries and internal stress. Finally, the diffusion barrier property of the pulse current induced Cr coatings was significantly reduced, while the plasma-nitrided Cr coating produced by a direct current exhibited a crack-closure effect, and an additional nitride layer successfully hindered the elemental diffu-sion of Ce and Nd at 650 degrees C for 25 h. This current study points to the critical effect of current waveforms on the final barrier property of Cr-chromium nitride coatings for nuclear cladding applications. (c) 2022 Elsevier B.V. All rights reserved.
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