Materials Reports 2019, Vol. 33 Issue (z1): 366-368 |
METALS AND METAL MATRIX COMPOSITES |
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Dry Sliding Friction and Wear Properties of Compacted Graphite Cast Iron Brake Drum |
LI Mengnan1, ZHAO Yuguang2, XIE Tonglun2
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1 Jilin Product Quality Supervision and Inspection Institute, Changchun 130103 2 College of Materials Science and Engineering, Jilin University, Changchun 130022 |
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Abstract In order to study the brake drum material of compacted graphite cast iron with superior performance and controllable cost, dry sliding friction and wear tests of compacted graphite cast iron and gray cast iron with different vermicular rate were carried out by MG-2000 friction and wear tester. The results show that the wear resistance of compacted graphite cast iron is 1.4—4.5 times higher than that of HT250 under the same conditions, and the superiority is more obvious with the increase of load and wear speed. The wear resistance of compacted graphite cast iron decreases with the increase of vermicularity, and the wear resistance of Ru60 is 69%—76% higher than that of Ru90.
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Published: 05 July 2019
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About author:: Mengnan Li graduated from Jilin University in June 2016 with a master’s degree in engineering. Now wor-king in Jilin Provincial Institute of Quality Supervision and Inspection, the main research area is high strength and toughness cast iron materials.Yuguang Zhao received a bachelor’s degree from Jilin University of Technology in 1982, a master’s degree from Jilin University of Technology in June 1986 and a doctor’s degree from Jilin University in October 2000. Mainly engaged in casting alloy near net shape precision casting technology, liquid metal treatment and solidification structure control, steel wear-resistant materials, metal matrix composites, casting die steel toughening, bionic wear-resistant composite materials, high temperature oxidation and surface modification of titanium alloy, metal material complex physical field treatment and electro-chemical strengthening of new materials and new technologies |
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1 Abedi H R,Fareghi A,Saghafian H,et al.Wear,2010,268(3-4),622. 2 Kim Sugwon,Cockcroft S L,Omran A M,et al.Journal of Alloys and Compounds,2009,487 (1-2),253. 3 Cueva G,Sinatora A,Guesser W L,et al.Wear, 2003,255(7),1256. 4 邱汉泉.蠕墨铸铁及其生产技术,化学工业出版社,2010. 5 袁兴栋, 郭晓斐, 杨晓洁. 金属材料磨损原理,化学工业出版社,2014. |
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