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铝基复合材料摩擦磨损性能研究 被引量:1

Friction and Wear Behavior of Aluminum Alloy Based Composites Reinforced with Carbon and Alumina Fibers
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摘要 为研究碳纤维对Al2O3f/ZL109复合材料摩擦磨损性能的影响,进一步提高金属基体的摩擦磨损性能,利用液态模锻法制备了(Cf,Al2O3f)/ZL109复合材料,并研究了该材料的摩擦磨损性能。结果表明:各种(Cf,Al2O3f)/ZL109复合材料的磨损量均随载荷的增加而增大,但复合材料的磨损量均低于ZL109基体,且在总纤维体积分数为12%的复合材料中,(4%Cf,8%Al2O3f)/ZL109复合材料具有最低的磨损量;各种(Cf,Al2O3f)/ZL109复合材料的摩擦因数均随载荷的增加而减小。(Cf,Al2O3f)/ZL109复合材料的耐磨性由碳纤维与氧化铝纤维性能及基体共同决定。 Liquid state die-forging was used to prepare ZL109 aluminum alloy based composites reinforced with carbon and alumina fibers coded as(Cf,Al2O3f)/ZL109 composite,aiming at improving the wear resistance of Al alloy-matrix composites.The friction and wear behaviors of the resulting(Cf,Al2O3f)/ZL109 composites containing different contents of mixed carbon and alumina fibers were investigated,with the effect of carbon fiber on the wear resistance of the composites being focused on.Moreover,the morphologies of the worn surfaces of the Al alloy-based composites were observed using a scanning electron microscope,and the wear mechanisms primarily discussed.The results showed that the wear volume loss of the composites with different contents of mixed fibers increased with increasing load,and all the composites had better wear resistance than the ZL109 aluminum alloy matrix.The composite with a total fiber volume fraction of 12%,i.e.,(4%Cf,8%Al2O3f)/ZL109 composite,had the minimum wear volume loss.Besides,the friction coefficients of the(Cf,Al2O3f)/ZL109 composites decreased with increasing load,and the wear resistance of the composites was highly dependent on the properties and volum fraction of the carbon and alumina fibers.
作者 谈淑咏 方峰 施春陵 蒋建清
机构地区 盐城工学院材料工程学院 东南大学材料科学与工程学院
出处 《材料保护》 CAS CSCD 北大核心 2007年第3期18-20,共3页 Materials Protection
基金 江苏省生态环境材料重点实验室资助(XKY2006016)
关键词 铝基复合材料 磨损性能 磨损机理 aluminum alloy based composites friction and wear behavior friction and wear mechanism
分类号 TB331 [一般工业技术—材料科学与工程]
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共引文献28

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  • 1焦龙,吕亚非.磨料对陶瓷摩擦材料摩擦性能的影响[J].润滑与密封,2008,33(8):9-11. 被引量:4
  • 2魏明坤,宋剑敏,邓强,谢峰.Al_2O_3基陶瓷摩擦材料的研制及性能研究[J].陶瓷,2006(10):24-26. 被引量:4
  • 3Eriksson M, Bergrnan F. Surface characterization of brake pads after running under silent and squealing conditions[J].Wear,1999,232:163 -167.
  • 4Chan D, Stachowiak G W. Review of automotive brake friction materials[J].Proe Instn Mech Engrs Part D: J Automobile Engineering,2004,218:953 -966.
  • 5Hitachi M O, Hitachi T N, TokyO M I, et al. Friction material composition and friction material using the same: US, 7338987 [P].2008-03-34.
  • 6Hee K W, Filip P. Performance of ceramic enhanced phenolic matrix brake lining materials for automotive brake linings[J]. Wear, 2005,259 : 1 088 - 1 096.
  • 7Sunil K, Kesa V. Friction malerials containing tin oxides:US, 7179850 [ P ]. 2007 4)2-20.
  • 8Tokushima H O, et al. Lepidoerocite type lithium potassium titanate,method fnr preparation thereof, and friction material:US, 7078009 [P]. 2006-07-18.
  • 9Boz M, Kurt A. The effect of Al2O3 on the friction performance of automotive brake friction materials[J]. Tribology International ,2007,40 : 1 161 - 1 169.
  • 10Bijwe N J, Mazumdar N. Influence of amount and modification of resin on fade and recovery behavior of non-asbestos organic friction materials [ J ]. Tribology letters, 2006,23:215 - 222.

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材料保护
2007年 第3期

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