Mo-alloyed stainless steel coating with improved cavitation erosion resistance by plasma spraying a specially designed core-shell-structured powder

Plasma spray coatings are widely used to protect materials from cavitation erosion. However, the limited interlamellar bonding and porous structure of plasma spray coatings limit the potential of utilization of the coating materials for cavitation protection. In the present study, to improve the res...

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Bibliographic Details
Published in:Wear 2023-09, Vol.528-529, p.204961, Article 204961
Main Authors: Liao, Xian-Jin, Luo, Xiao-Tao, Zhang, Li, Chen, Xu, Sun, Yin-Qiu, Li, Cheng-Xin, Yang, Guan-Jun, Li, Chang-Jiu
Format: Article
Language:English
Subjects:
Cavitation erosion resistance
Core-shell-structured powder
Mo-alloyed stainless steel coating
Plasma spraying
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Summary:Plasma spray coatings are widely used to protect materials from cavitation erosion. However, the limited interlamellar bonding and porous structure of plasma spray coatings limit the potential of utilization of the coating materials for cavitation protection. In the present study, to improve the resistance of cavitation erosion for plasma spray coatings, molybdenum (Mo)-alloyed stainless steel coating with enhanced interlamellar bonding was deposited by spraying a specially designed core-shell-structured Mo-clad-304SS powder through shrouded plasma spray. The post-spray diffusion heat treatment was then also performed to further enhance the lamellar interface bonding of the coating. Owing to the high susceptibility to cohesion of the coating, cavitation erosion test was performed on the surface of resultant coatings to evaluate the quality of the interlamellar bonding within the coating. Results show that the cavitation erosion resistance of the 304SS-17Mo alloy coating with enhanced interlamellar bonding was significantly improved by 100% compared with that of conventional 304SS coating. After diffusion heat treatment, the cavitation erosion resistance of 304SS-17Mo alloy coating was further improved to as high as that of 304SS bulk due to the newly formed hard phases. [Display omitted] •Core-shell-structured powder was designed to deposit 304SS-17Mo coating with well-bonded lamellar interface.•The cavitation resistance of 304SS-17Mo coating was improved by 100% as compared with that of conventional 304SS coating.•Heat-treatment further improves the cavitation resistance of 304SS-17Mo coating to be similar with that of 304SS bulk.
ISSN:0043-1648
1873-2577
DOI:10.1016/j.wear.2023.204961