Sliding wear behaviour of AZ31B magnesium alloy and nano-composite 被引量：4

AZ31B镁合金及其纳米复合材料的滑动磨损行为(英文)

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摘要 AZ31B magnesium alloy and nano-composite were manufactured by hybrid casting process and hot extruded at 350 °C. The sliding wear behaviour of alloy and nano-composite was estimated at room temperature using the standard pin-on-disc wear test equipment. The tests were conducted under a normal load of 10 N at different sliding speeds ranging from 0.60 to 1.2 m/s for distance up to 2000 m. The wear mechanisms of the worn out surface were studied using SEM analysis. The influence of test parameters on wear rate of the pins was established using a linear regression model statistically. Compared with the AZ31B magnesium alloy, the nano-composite shows lower wear rates due to higher hardness improvement caused by the reinforcement. The wear mechanism appears to be a mix-up of ploughing, rows of furrows, delamination and oxidation. 采用复合铸造工艺制备AZ31B镁合金及其纳米复合材料,再对所得材料在350°C进行热挤压。采用标准的销-盘式摩擦磨损试验机对AZ31B镁合金及其纳米复合材料的室温滑动磨损行为进行研究。实验条件为法向载荷10N、滑移速度0.60~1.2m/s、滑移距离2000m。采用SEM观察来研究磨损表面的磨损机理。通过构建一个线性回归模型来研究试验参数对磨销磨损率的影响。与AZ31B镁合金相比,由于增强体的作用而导致的硬度增强使复合材料表现出低的磨损率。犁削、犁沟、分层和氧化构成混合的磨损机理。

作者 M.SRINIVASAN C.LOGANATHAN M.KAMARAJ Q.B.NGUYEN M.GUPTA R.NARAYANASAMY

机构地区 Department of Mechanical Engineering St.Jospeh's College of Engineering and Technology Department of Metallurgical and Materials Engineering Department of Mechanical Engineering Department of Production Engineering

出处《Transactions of Nonferrous Metals Society of China》 SCIE EI CAS CSCD 2012年第1期60-65,共6页 中国有色金属学报（英文版）

关键词 AZ31B magnesium alloy nano composite wear mechanism AZ31B镁合金纳米复合材料磨损机理

分类号 TG146.22 [金属学及工艺—金属材料]

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参考文献18

1GOH C S,WEI J,LEE L C,GUPTA M.Development of novel carbon nanotube reinforced magnesium nanocomposites using the powder metallurgy technique[J].Nano Technology,2006,17:7-12.
2AVEDESIAN M M,BAKER H.Magnesium and nagnesium alloys-ASM specialty handbook[M].Materials Park,OH:ASM International,1999:87.
3HASSAN S F,GUPTA M.Enhancing physical and mechanical properties of Mg using nano-sized Al2O3 particulates as reinforcement[J].Metallurgical and Materials Transactions A,2005,36:2253-2258.
4MORDIKE B L,EBERT T.Magnesium properties-applications-potentials[J].Material Science Engineering A,2001,302:37-45.
5SRIVATSAN T S,SUDARSHAN T S,LAVERNIA E.processing of discontinuously-reinforced metal matrix composites by rapid solidification[J].Progress in Material Science,1995,39:317-409.
6LIM C Y H,LEO D K,ANG J J S,GUPTA M.Wear of magnesium composites reinforced with nano-sized alumina particulates[J].Wear,2005,259:620-625.
7HABIBNEJAD-KORAYEM M,MAHMUDI R,GHASEMIA H M,POOLE W J.Tribological behaviour of pure Mg and AZ31magnesium alloy strengthened by Al2O3 nano-particles[J].Wear,2009,268:405-412.
8NGUYEN Q B,GUPTA M.Microstructure and mechanical characteristics of AZ31B/Al2O3 nanocomposite with addition of Ca[J].Journal of Composite Materials,2009,43:5-17.
9SAHIN Y.Were behavior of aluminium alloy and its composites reinforced by SiC particles using statistical analysis[J].Materials and Design,2003,24:95-103.
10MONTGOMERY D C,RUNGER G C.Applied statistics and probability for engineers[M].2nd ed.New York:John Wiley &Sons,1999.

同被引文献90

1boyun huang Academician of Chinese Academy of Engineering,Vice-president of China Association for Science and Technology,Vice-chairmen of China Postdoctoral Science Foundation.Preface[J].中国有色金属学会会刊：英文版,2009,19(S3):527-527. 被引量：54
2周霞,吴少华,张仁杰.镍涂层对碳纳米管/镁复合材料界面结合强度影响的分子动力学模拟[J].计算力学学报,2013,30(S1):54-57. 被引量：3
3姚孝寒,曾效舒,戚道华.镁合金(ZM5)/碳纳米管复合材料力学性能研究[J].南昌大学学报（工科版）,2006,28(2):126-129. 被引量：3
4王继杰,郭金花,陈礼清.TiC/AZ91D composites fabricated by in situ reactive infiltration process and its tensile deformation[J].中国有色金属学会会刊：英文版,2006,16(4):892-896. 被引量：4
5缪强,崔彩娥,潘俊德,段良辉,刘亚萍.Tribological Behavior of Magnesium Alloy AZ91 Coated with TiN/CrN by Arc-glow Plasma Depositing[J].Chinese Journal of Aeronautics,2006,19(3):266-270. 被引量：5
6LEE J A, MYKKANEN D L. Metal and polymer matrix composites [M]. Park Ridge: Noyes Data Corporation.
7JUNG S W, NAM H W, JUNG C K, HANK S. Analysis of temperature dependent thermal expansion behavior of SiCrdAl203f/A1 composites [J]. Journal of KSCM, 2003, 16(1): 1-12.
8MATA M, ALCALA J. The role of friction on sharp indentation [J]. Journal of the Mechanics and Physics of Solids, 2004, 52: 145-165.
9ZHAN Y, ZHANG G. Graphite and SiC hybrid particles reinforced copper composite and its trihological characteristic [J]. Journal of Mater Science Letters, 2003, 22: 1087-1089.
10LIANG Y H, WANG H Y, YANG Y F, WANG Y Y, JIANG Q C. Evolution process of the synthesis of TiC in the Cu-TiC-C system [J]. Journal of Alloy of Compounds, 2008, 452: 298-303.

引证文献4

1T. RAJMOHAN,K. PALANIKUMAR,S. RANGANATHAN.Evaluation of mechanical and wear properties of hybrid aluminium matrix composites[J].Transactions of Nonferrous Metals Society of China,2013,23(9):2509-2517. 被引量：3
2陈百明,张振宇,张宗莹,安亮,余华俐.镁基复合材料在干摩擦条件下的抗磨损性能研究进展[J].粉末冶金工业,2014,24(3):40-47. 被引量：1
3袁秋红,曾效舒,刘勇,周国华,罗雷,吴俊斌.碳纳米管增强镁基复合材料弹性模量的研究进展[J].中国有色金属学报,2015,25(1):86-97. 被引量：23
4姚彦桃,姜澜,付高峰,陈礼清.Wear behavior and mechanism of B_4C reinforced Mg-matrix composites fabricated by metal-assisted pressureless infiltration technique[J].Transactions of Nonferrous Metals Society of China,2015,25(8):2543-2548. 被引量：2

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1蒋小松,王乃娟,朱德贵.Friction and wear properties of in-situ synthesized Al_2O_3 reinforced aluminum composites[J].Transactions of Nonferrous Metals Society of China,2014,24(7):2352-2358. 被引量：4
2P.SURESH,K.MARIMUTHU,S.RANGANATHAN,T.RAJMOHAN.Optimization of machining parameters in turning of Al-SiC-Gr hybrid metal matrix composites using grey-fuzzy algorithm[J].Transactions of Nonferrous Metals Society of China,2014,24(9):2805-2814. 被引量：1
3袁秋红,曾效舒,吴俊斌,叶达林.石墨烯纳米片/AZ91镁基复合材料制备与力学性能[J].特种铸造及有色合金,2016,36(3):282-286. 被引量：21
4张诗昌,刘纯,刘升,常庆明.温度及应变率对挤压态AZ31镁合金弹性模量的影响[J].轻合金加工技术,2016,44(4):62-65. 被引量：9
5S.O.ADEOSUN,E.I.AKPAN,O.P.GBENEBOR,S.A.BALOGUN.Ductility and hardness of chloride cleaned AA6011/SiC_p composites[J].Transactions of Nonferrous Metals Society of China,2016,26(2):339-347. 被引量：1
6陈俊蕾,朱丽,陈婷婷,刘俊,关明.ICP-AES法测定载金树脂物料中铝、镁、锰、锶的含量[J].现代化工,2016,36(8):197-199. 被引量：1
7黄政,陈彩凤,仲梁维.增强相对镁基复合材料性能的影响分析[J].世界科技研究与发展,2016,38(5):1006-1009.
8李爱坤,谢明,王松,刘满门,张吉明,陈永泰.碳纳米管含量对MWCNTs/Ag复合材料组织和力学性能的影响[J].中国有色金属学报,2016,26(10):2102-2109. 被引量：9
9P.NARAYANASAMY,N.SELVAKUMAR.Tensile,compressive and wear behaviour of self-lubricating sintered magnesium based composites[J].Transactions of Nonferrous Metals Society of China,2017,27(2):312-323. 被引量：1
10李景艺,潘强,郭晨阳,李七平,王譞,李文祺.碳纳米管/镁基复合材料的研究[J].精细石油化工进展,2017,18(4):50-53. 被引量：1

1张茂仁,孙希泰.渗硼层的滑动磨损行为及磨损机理研究[J].金属热处理学报,1994,15(2):40-44. 被引量：2
2朱和祥,黎祚坚,曾国勋,熊凰,扬卫军.铸造铝基复合材料的滑动磨损行为[J].特种铸造及有色合金,1997,17(1):4-6. 被引量：3
3王红美,徐滨士,马世宁,董世运.纳米Al_2O_3颗粒含量对复合镀层组织和滑动磨损行为的影响[J].金属热处理,2005,30(4):10-14. 被引量：7
4李松林,向锦涛,周伍喜,李玉玺,陈文.超音速火焰喷涂WC-10Co4Cr涂层的耐滑动磨损行为[J].中国有色金属学报,2012,22(5):1371-1376. 被引量：27
5王振廷,王永东.原位自生TiC/Ni复合材料涂层滑动磨损行为[J].辽宁工程技术大学学报（自然科学版）,2006,25(3):440-443. 被引量：6
6吴姚莎,王丽荣,石澎,王迪.纳米NiCrBSi-TiB_2涂层的滑动磨损行为[J].金属热处理,2015,40(7):74-77.
7李炳,马颖,陈体军,李元东,任峻.两种不同成形工艺下AZ91D镁合金滑动磨损行为研究[J].热加工工艺,2007,36(5):9-13. 被引量：1
8高护生,顾海澄,周惠久.TiN涂层磨损特性的研究[J].西安石油学院学报,1994,9(4):36-38.
9王有良,金惠强,尹永春.钴基非晶合金滑动磨损行为的研究[J].沈阳工业学院学报,1997,16(3):14-18. 被引量：1
10李柏强,梁文萍,缪强,张志刚,崔世宇.等离子喷涂WC-12Co涂层磨损性能研究[J].热处理,2015,30(6):6-12. 被引量：2

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Sliding wear behaviour of AZ31B magnesium alloy and nano-composite 被引量：4

参考文献18

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