利用等离子喷涂-包埋技术制备 Ni60A 涂层的工艺优化

IF 3.2 3区 材料科学 Q2 MATERIALS SCIENCE, COATINGS & FILMS
Ming Liu, Qi-qing Peng, Yan-fei Huang, Guo-zheng Ma, Xue-wei Zhu, Zhong-yu Piao, Hai-dou Wang, Xuan-ping Luo
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引用次数: 0

摘要

采用等离子喷涂覆层技术在 Q235 钢基体表面创新性地制备了 Ni60A 喷涂覆层。在初步数值模拟的基础上,进一步选择了粒径为 30 μm 的 Ni60A 粉末作为最佳喷涂覆层粉末。对喷涂熔覆距离Ø 进行了优化,确定了内部进料工艺和外部进料工艺的最佳距离分别为 18 毫米和 16 毫米。当喷涂覆层距离为 18 毫米时,内喷涂覆层涂层的显微硬度可达 875.6 HV;当喷涂覆层距离为 16 毫米时,外喷涂覆层涂层的显微硬度可达 791.6 HV。同时,等离子喷涂覆层技术对 Q235 钢基材的热影响较小。
本文章由计算机程序翻译,如有差异,请以英文原文为准。

Process Optimization of Ni60A Coating Preparation by Plasma Spraying-Cladding Technique

Process Optimization of Ni60A Coating Preparation by Plasma Spraying-Cladding Technique

Ni60A spraying-cladding coatings were innovatively prepared on the surface of the Q235 steel substrate by plasma spraying-cladding technique. Ni60A powder with a particle size of 30 μm was further selected as the optimum spraying-cladding powder based on preliminary numerical simulation. The spraying-cladding distanceØ was optimized, and the optimum distance was determined as 18 and 16 mm, respectively, for the internal feeding process and external feeding process. The microhardness of the spraying-cladding coating could reach 875.6 HV during the internal feeding process at a spraying-cladding distance of 18 mm, and reach 791.6 HV during the external feeding process at a spraying-cladding distance of 16 mm. Meanwhile, the thermal effect of the plasma spraying-cladding technique on the Q235 steel substrate was less.

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来源期刊
Journal of Thermal Spray Technology
Journal of Thermal Spray Technology 工程技术-材料科学:膜
CiteScore
5.20
自引率
25.80%
发文量
198
审稿时长
2.6 months
期刊介绍: From the scientific to the practical, stay on top of advances in this fast-growing coating technology with ASM International''s Journal of Thermal Spray Technology. Critically reviewed scientific papers and engineering articles combine the best of new research with the latest applications and problem solving. A service of the ASM Thermal Spray Society (TSS), the Journal of Thermal Spray Technology covers all fundamental and practical aspects of thermal spray science, including processes, feedstock manufacture, and testing and characterization. The journal contains worldwide coverage of the latest research, products, equipment and process developments, and includes technical note case studies from real-time applications and in-depth topical reviews.
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