激光复合热喷涂技术制备陶瓷基涂层研究现状

李思源; 何鹏飞; 程延海; 梁秀兵; 孙川

LI Si-yuan,HE Peng-fei,CHENG Yan-hai,LIANG Xiu-bing,SUN Chuan.Research Status of Ceramic-based Coatings Prepared by Laser-hybrid Thermal Spraying Technology[J],52(9):23-38, 95

Research Status of Ceramic-based Coatings Prepared by Laser-hybrid Thermal Spraying Technology

Received:May 31, 2022 Revised:March 08, 2023

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DOI：10.16490/j.cnki.issn.1001-3660.2023.09.003

KeyWord:thermal spraying laser remelting laser in-situ assistance ceramic-based composite coating

Author	Institution
LI Si-yuan	Defense Innovation Institute, Academy of Military Science, Beijing , China;China University of Mining and Technology, Jiangsu Xuzhou , China
HE Peng-fei	Defense Innovation Institute, Academy of Military Science, Beijing , China
CHENG Yan-hai	China University of Mining and Technology, Jiangsu Xuzhou , China
LIANG Xiu-bing	Defense Innovation Institute, Academy of Military Science, Beijing , China
SUN Chuan	Defense Innovation Institute, Academy of Military Science, Beijing , China

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Abstract:

With the rapid development of the advanced manufacturing industry driven by China's national projects such as aerospace, rail transit, nuclear energy, and offshore drilling, the surface, and interface of key parts of the equipment are increasingly facing more extreme and complex environments such as high temperature, heavy load, and intense corrosion. Therefore, it is urgent to develop new surface coating technologies and advanced coating material systems. With the advantages of thermal spraying and laser cladding, laser hybrid thermal spraying technology possesses unique merits for the preparation of high-performance ceramic-based composite coating with low defects and strong bonding, which can significantly improve the wear, corrosion, and oxidation resistance of equipment components. In this review, five parts are classified according to the coating material systems and preparation process.