Abstract
Candidate coating materials for re-usable metallic nuclear fuel crucibles, HfN, TiC, ZrC, and Y 2O 3, were plasma-sprayed onto niobium substrates. The coating microstructure and the thermal cycling behavior were characterized, and U–Zr melt interaction studies carried out. The Y 2O 3 coating layer had a uniform thickness and was well consolidated with a few small pores scattered throughout. While the HfN coating was not well consolidated with a considerable amount of porosity, but showed somewhat uniform thickness. Thermal cycling tests on the HfN, TiC, ZrC, and Y 2O 3 coatings showed good cycling characteristics with no interconnected cracks forming even after 20 cycles. Interaction studies done on the coated samples by dipping into a U–20wt.%Zr melt indicated that HfN and Y 2O 3 did not form significant reaction layers between the melt and the coating while the TiC and the ZrC coatings were significantly degraded. Y 2O 3 exhibited the most promising performance among HfN, TiC, ZrC, and Y 2O 3 coatings.
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