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Friction, Wear, and Transfer of Carbon and Graphite to Copper, Chromium, and Aluminum Metal Surfaces in Vacuum

机译：真空中碳和石墨的摩擦，磨损和转移到铜，铬和铝金属表面

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Sliding friction experiments were conducted with amorphous and fully graphitized carbons sliding on copper and on films of chromium and aluminum on copper. Auger emission spectroscopy analysis was used to monitor carbon transfer to the metal surfaces. Friction and wear were also measured. Metal surfaces were examined both in the clean state and with normal oxides present. Results indicate that different metals have an important effect on friction, wear, and transfer characteristics. With amorphous carbon, the least chemically active metal gave the highest wear and amount of carbon transfer. Both forms of carbon gave lower friction and wear and lower transfer rates when in contact with clean, as opposed to oxide-covered, chromium surfaces. With copper, the reverse was true; cleaning was detrimental. (Author)

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Buckley, D. H.;
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年度 1973
页码 1-21
总页数 21
原文格式 PDF
正文语种 eng
中图分类工业技术;
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1. Measurement of Friction Surface and Wear Rate between a Carbon Graphite Brush and a Copper Ring [J] . JAU-WEN LIN, HSI-CHERNG CHANG Tribology Transactions . 2011,第6期

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2. Effect of surface film on sliding friction and wear of copper-impregnated metallized carbon against a Cu-Cr-Zr alloy [J] . Y.A. Wang, J.X. Li, Y. Yan, Applied Surface Science . 2012,第7期

机译：表面膜对含铜金属化碳对Cu-Cr-Zr合金滑动摩擦和磨损的影响
3. Friction and wear performance of copper-graphite surface composites fabricated by friction stir processing (FSP) [J] . H. Sarmadi, A. H. Kokabi, S. M. Seyed Reihani Wear: an International Journal on the Science and Technology of Friction, Lubrication and Wear . 2013,第1a2期

机译：搅拌摩擦加工（FSP）制备的铜-石墨表面复合材料的摩擦磨损性能
4. Effect of contact characteristics on the friction and wear behaviors of stainless steel/copper-impregnated metalized carbon under electric current [C] . Tao Ding, Guang-xiong Chen, Qiu-dong He, International conference on chemical engineering, metallurgical engineering and metallic materials . 2012

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5. Phase, microstructure, and chemistry of aluminum copper iron chromium and aluminum copper iron quasicrystalline wear coatings produced via physical vapor deposition. [D] . Daniels, Matthew John. 2003

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6. Influence of wear parameters on friction performance of A356 aluminum – graphite/ granite particles reinforced metal matrix hybrid composites [O] . Tirlangi Satyanarayana, Putti Srinivasa Rao, M.Gopi Krishna 2019

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7. Friction and wear performance of copper–graphite surface composites fabricated by friction stir processing (FSP) [O] . Sarmadi H., Kokabi A.H., Seyed Reihani S.M. 2013

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Friction, Wear, and Transfer of Carbon and Graphite to Copper, Chromium, and Aluminum Metal Surfaces in Vacuum

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