| 空气-等离子镀覆技术的进展 |
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| 引用本文: | В. Я. Фролов,Г. К. Петров,Б. А. Юшин,Иванов Д В.空气-等离子镀覆技术的进展[J].热处理,2014(1):8-14. |
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| 作者姓名: | В. Я. Фролов Г. К. Петров Б. А. Юшин Иванов Д В |
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| 作者单位: | Спбгпуг.Санкт-петебургРоссия |
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| 摘 要: | 空气-等离子喷涂工艺在许多领域得到了应用。近年来,国立圣彼得堡综合技术大学在等离子体发生器的创建和涂覆工艺方面进行了研究,业已研制成多种涂层,既可用于新制零件的防护,也可用于磨损件的修复。国立圣彼得堡综合技术大学和雷波尼茨(INP Greifswald)等离子体及工艺研究院联合进行的理论和试验研究,可显著减少研发等离子体发生器和空气-等离子涂覆工艺的试验工作量。
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| 关 键 词: | 空气-电弧涂覆 电弧等离子体发生器 耐磨涂层 修复涂层 耐蚀涂层 绝热涂层 绝缘涂层 保护-装饰涂层 |
Development of Air-plasma Spraying Technology |
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| Affiliation: | V. Ya Frolov, G. K. Petrov, B. A. Ushin, D. V. Ivanov (St. Petersburg State Polytechnical University, St. Petersburg, Russia) |
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| Abstract: | The air-plasma spraying technology has been found application in many fields. In recent years, research on both establishment of plasma generator and spraying process has been performed in the St. Petersburg State Polytechnic University, and many types of coatings, which may not only be used to protect freshly made parts but also to restore worn parts, have been developed. The theoretical and experimental investigations conducted by the St. Petersburg State Polytechnic University in conjunction with the Leibnits (INP Greifswald ) Plasma and Technology Research Institute will allow amount of experimental work to be appreciably reduced in developing the plasma generator and the air-plasma spraying process. |
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| Keywords: | air-arc coating arc plasma generator wear resistant coating restoration coating corrosion resistantcoating thermal insulating coating insulating coating protective-decorative coating |
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