期刊
CERAMICS INTERNATIONAL
卷 47, 期 23, 页码 33338-33352出版社
ELSEVIER SCI LTD
DOI: 10.1016/j.ceramint.2021.08.237
关键词
Plasma spraying; Niobium carbide ceramic coating; Reaction synthesis; Nb-SiC reaction
资金
- National Natural Science Foundation of China [52072110, 51672067, 51541208, 51102074]
- Natural Science Foundation of Hebei Province [E2018202034, E2015202070]
Niobium carbide composite coatings were prepared on titanium alloy surface by plasma spraying NbC-Al2O3, Nb-SiC and Nb-SiC-Al composite powders. The Nb-SiC-Al composite coating exhibited a more uniform microstructure, higher hardness, better toughness, and scratch resistance compared to NbC-Al2O3 and Nb-SiC composite coatings.
Niobium carbide composite coatings were prepared on titanium alloy surface by plasma spraying NbC-Al2O3, Nb-SiC and Nb-SiC-Al composite powders, respectively. The phase composition, microstructure and formation mechanism of the three composite coatings were analyzed and their microhardness, toughness and scratch resistance were compared. The phases of the NbC-Al2O3 system did not change during the plasma spraying process, and new phases (Nb2C, NbC and Nb3Si) were formed in the Nb-SiC and Nb-SiC-Al systems. TEM results of the Nb-SiC composite coating indicate that the new phases nanocrystalline Nb2C, submicron NbC and nanocrystalline Nb3Si were formed during the plasma spraying process. Compared with the NbC-Al2O3 composite coating, the microstructure of the Nb-SiC and the Nb-SiC-Al composite coatings were uniform, and the porosity were relatively low, and the hardness was higher. The Nb-SiC-Al composite coating was denser than the Nb-SiC composite coating, the lamellar structure was obvious and the number of pores in the coating was the least, which is attributed to the better molten state of the composite powder by the addition of the Al to the Nb-SiC system. The Nb-SiC-Al composite coating had better toughness and scratch resistance.
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