Friction and wear of 7075 aluminum alloy induced by torsional fretting 被引量：6

Friction and wear of 7075 aluminum alloy induced by torsional fretting

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摘要 The torsional fretting wear tests of 7075 aluminum alloy flat against 52100 steel ball in dry condition were carried out on a new high-precision torsional fretting-wear tester.The kinetics behaviors and damage mechanism of 7075 aluminum alloy under different angular displacement amplitudes were investigated in detail.The results show that the torsional fretting running behaviors of 7075 aluminum alloy can be defined by three fretting regimes(i.e.partial slip regime(PSR),mixed fretting regime(MFR) and slip regime(SR)) with the increase of angular displacement amplitudes.In PSR,the damage occurs at the lateral portion of the contact zone with a slight annular shape.However,in MFR and SR,more severe damages are observed and the debris layer covers the wear scars.Friction torque and dissipation energy which are strongly dependent upon the imposed angular displacement amplitudes and presented in three stages were discussed in detail.The mechanisms of torsional fretting wear of aluminum alloy are mainly oxidative wear,abrasive wear and delamination in the three fretting regimes.In addition,the oxidative debris plays an important role during the torsional fretting wear processes. The torsional fretting wear tests of 7075 aluminum alloy flat against 52100 steel ball in dry condition were carried out on a new high-precision torsional fretting-wear tester.The kinetics behaviors and damage mechanism of 7075 aluminum alloy under different angular displacement amplitudes were investigated in detail.The results show that the torsional fretting running behaviors of 7075 aluminum alloy can be defined by three fretting regimes（i.e.partial slip regime（PSR）,mixed fretting regime（MFR） and slip regime（SR）） with the increase of angular displacement amplitudes.In PSR,the damage occurs at the lateral portion of the contact zone with a slight annular shape.However,in MFR and SR,more severe damages are observed and the debris layer covers the wear scars.Friction torque and dissipation energy which are strongly dependent upon the imposed angular displacement amplitudes and presented in three stages were discussed in detail.The mechanisms of torsional fretting wear of aluminum alloy are mainly oxidative wear,abrasive wear and delamination in the three fretting regimes.In addition,the oxidative debris plays an important role during the torsional fretting wear processes.

作者蔡振兵朱旻昊林修洲

机构地区 Tribology Research Institute

出处《Transactions of Nonferrous Metals Society of China》 SCIE EI CAS CSCD 2010年第3期371-376,共6页 中国有色金属学报（英文版）

基金 Project(2007CB714704) supported by the National Basic Research Program of China Projects(50775192,50821063) supported by the National Natural Science Foundation of China

关键词 7075 aluminum alloy fretting wear torsional fretting fretting regime 7075铝合金微动磨损扭转铝诱导动力学行为摩擦破坏机制氧化磨损

分类号 TG146.21 [金属学及工艺—金属材料]

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参考文献17

1涂川俊,陈振华,陈鼎,严红革,何凤亿.Tribological behavior and wear mechanism of resin-matrix contact strip against copper with electrical current[J].中国有色金属学会会刊：英文版,2008,18(5):1157-1163. 被引量：9
2张新明,李惠杰,李慧中,高慧,高志国,刘瑛,刘波.Dynamic property evaluation of aluminum alloy 2519A by split Hopkinson pressure bar[J].中国有色金属学会会刊：英文版,2008,18(1):1-5. 被引量：11
3蔡振兵,朱旻昊,俞佳,周仲荣.扭动微动的模拟及其试验研究[J].摩擦学学报,2008,28(1):18-22. 被引量：22
4MUNOZ S,,PROUDHON H,DOMíNGUEZ J,FOUVRY S.Prediction of the crack extension under fretting wear loading conditions. International Journal of Fatigue . 2006
5CAI Zhen-bing,ZHU Min-hao,SHEN Huo-ming,ZHOU Zhong-rong,JUN Xue-song.Torsional fretting wear behaviors of 7075 aluminum alloy in various relative humidity environment. Wear . 2009
6CAI Zhen-bing,ZHU Min-hao,ZHENG Jian-feng,JIN Xue-song,ZHOU Zhong-rong.Torsional fretting behaviors of LZ50 steel in ambient air and nitrogen. Tribology International . 2009
7YU Jia,CAI Zhen-bing,ZHU Min-hao,et al.Study on torsional fretting behavior of UHMWPE. Applied Surface Science . 2008
8CAI Zhen-bing,GAO Shan-shan,HE Li-ping,ZHU Min-hao.Study on torsional fretting characterization of polymethyl-methacrylate. Journal of Sichuan University: Engineering Science Edition . 2009
9MEIBOOM S,HEWITT R C.Rotational viscosity in the smectic phases of terephthal- bis-butylaniline (TBBA). Physical Review . 1977
10Zhou Z R,Fayeulle S,Vincent L.Cracking behaviour of various aluminium alloys during fretting wear. Wear . 1992

二级参考文献27

1李慧中,张新明,陈明安,周卓平.2519铝合金热变形流变行为[J].中国有色金属学报,2005,15(4):621-625. 被引量：64
2涂川俊,陈振华,陈刚,严红革,夏金童,刘军.炭系电力机车受电弓滑板材料的研究进展[J].炭素技术,2007,26(4):23-29. 被引量：12
3Dowson D. History of tribology [ M ]. London : Professional engineering publishing limited, 1998.
4Bergmann G, Deuretzbacher G, Heller M, et al. Hip contact forces and gait patterns from routine activities[J]. Journal of Biomechanics,2001,34 : 859 -871.
5Lubkin J L. The torsion of elastic sphere in contact[J]. Journal of Applied Mechanics,1951 (7) :183-187.
6Jager J. Torsional impact of elastic sphere [ J ]. Archive of Applied Mechanics, 1994,64:235-248.
7Jaeger J. Analytical solution of contact impact problems[ J ]. Appl Mech Rev, 1994,47:35-54.
8Briscoe B J, Chateauminois A, Lindley T C,et al. Fretting wear behavior polymethyl-methacrylate under linear motions and torsional contact condition [ J ]. Tribology International, 1998,31 : 701- 711.
9Briscoe B J, Chateauminois A, Lindley T C ,et al. Contact damage of poly (methyl-methacrylate) during complex micro-displacements [ J ]. Wear,2000,240:27-39.
10Briscoe B J, Chateauminois A. Measurements of friction-induced surface strains in a steel/polymer contact[ J ]. Trlbology International, 2002,35:245-254.

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1蔡振兵,高姗姗,何莉萍,朱旻昊.聚甲基丙烯酸甲酯的扭动微动摩擦学特性[J].四川大学学报（工程科学版）,2009,41(1):96-101. 被引量：11
2刘娟,沈火明,杨翊仁.扭动微动接触表面摩擦行为数值模拟[J].四川大学学报（工程科学版）,2012,44(S2):64-67. 被引量：2
3何圳涛,刘文辉,陈宇强,唐昌平.低温环境下2519A铝合金动态力学性能及组织演化[J].材料热处理学报,2015,36(4):62-67. 被引量：5
4李庶,凤仪,杨茜婷,王娟,陈淑娴,王东里,孙宇峰.二硫化钼含量变化对银-二硫化钼复合材料力学性能和电磨损性能的影响(英文)[J].中国组织工程研究与临床康复,2009,13(12):2383-2386.
5蔡振兵,朱旻昊,张强,何莉萍,林修洲.钢-钢接触的扭动微动磨损氧化行为研究[J].西安交通大学学报,2009,43(9):86-90. 被引量：16
6丁涛,王鑫,陈光雄,朱旻昊.有无电流条件下温度对碳/铜摩擦副摩擦磨损性能的影响[J].中国机械工程,2010,21(7):843-847. 被引量：5
7蔡振兵,杨莎,林修洲,何莉萍,朱旻昊.扭动微动条件下含水气氛对氧化行为的影响[J].摩擦学学报,2010,30(6):527-531. 被引量：9
8林修洲,蔡振兵,何莉萍,易敬华,谢兴源,朱旻昊.恒温扭动磨损腐蚀的模拟与试验[J].西南交通大学学报,2011,46(1):132-137. 被引量：4
9蔡振兵,杨莎,高姗姗,于海洋,朱旻昊.扭动摩擦条件下软骨损伤行为研究[J].四川大学学报（工程科学版）,2011,43(3):209-213. 被引量：4
10武琳,张德坤.钛合金球与骨水泥界面之间的微动磨损机制研究[J].润滑与密封,2011,36(8):48-53.

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1宋晓萍,王优强,张平,曹磊,谢奕浓,赵晶晶.7055铝合金在3.5%NaCl溶液中腐蚀磨损性能的研究[J].摩擦学学报,2020,40(1):73-81. 被引量：7
2蔡振兵,高姗姗,何莉萍,朱旻昊.聚甲基丙烯酸甲酯的扭动微动摩擦学特性[J].四川大学学报（工程科学版）,2009,41(1):96-101. 被引量：11
3刘在健,王佳,张彭辉,王燕华,张源.5083铝合金在海水中的腐蚀行为及其阴极保护研究[J].中国腐蚀与防护学报,2015,35(3):239-244. 被引量：12
4郑修麟.冲击疲劳载荷下的疲劳裂纹起始与扩展[J].机械强度,1993,15(4):41-45. 被引量：6
5王勇,任平弟,朱旻昊,于海洋,周仲荣.纯钛在蒸馏水和Saline溶液中的微动腐蚀行为[J].上海交通大学学报,2005,39(9):1437-1440. 被引量：4
6任平弟,王勇,朱旻昊,周仲荣.阴极极化对滑移区微动腐蚀行为的影响[J].材料研究学报,2006,20(4):372-376. 被引量：3
7JohnsonKL 徐秉业罗学富刘信声等译.接触力学[M].北京：高等教育出版社,1992.275-316.
8Hertz H. Ueber die beruhrug fester elastisoher korper [J].Journal Fur Die Reine Und Angewandte Mathematik. 1882, 92: 156-171.
9Lubkin J L. The torsion of elastic sphere in contact [J]. Journal of Applied Mechanics-Transactions of the ASME, 1951, 18(2): 183-187.
10Jaeger J. New solutions in contact mechanics [M] ampton: WIT Press, 2005.

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2贾国海,龚金科,鄂加强,蔡皓,王曙辉.Fretting instability characteristics for gear shaft shoulder[J].Journal of Central South University,2014,21(10):3746-3752. 被引量：1
3伍灿,沈火明,邓莎莎,刘娟,彭金方.5083铝合金扭动微动磨损实验研究[J].材料工程,2016,44(4):71-75. 被引量：3
4蒲建,李根,袁新璐,张晓宇,张强,任平弟.极化作用对6082铝合金在3.5%NaCl溶液中微动腐蚀行为的影响[J].摩擦学学报,2020,40(4):457-466. 被引量：2
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6林韩波,唐力晨,钱浩,陈闰洛,王昌训,谢林君.核电690合金传热管微动疲劳试验及损伤机理分析[J].摩擦学学报,2022,42(5):954-965. 被引量：2

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9李芳芳,刘冰,史志武,张宇.KX84系列牙轮钻头牙爪大跑道的失效分析[J].失效分析与预防,2023,18(1):55-61. 被引量：1
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1邓忠民,谢季佳,周承恩,洪友士.材料磨损与微电子机械系统中的磨损现象[J].机械强度,2001,23(4):511-515. 被引量：1
2Jianhua Liu Yu Feng Yaxue Kang Ana Lu Guirong Peng Ruijun Zhang.Study on Friction and Wear Properties of Cu-Zn-Sn-Pb-Ni Alloy[J].材料科学与工程（中英文A版）,2011,1(1X):71-75.
3柴保明,韩红雨,陈景礼,张保民.2-RPS&PSR并联机构刚度分析[J].机床与液压,2015,43(3):86-88.
4李丹,陈希章,刘瑜,高佩,王志健.Cr18Ni3Mn11Cu3NbN钢焊接接头的组织和显微硬度[J].上海交通大学学报,2010,44(S1):33-36.
5Wang Gaosong,Zhao Zhihao,Guo Qiang,Cui Jianzhong.Effect of homogenizing treatment on microstructure and conductivity of 7075 aluminum alloy prepared by low frequency electromagnetic casting[J].China Foundry,2014,11(1):39-45. 被引量：2
6Chen Tijun,Yuan Chengren,Fu Mingfeng,Ma Ying,LiYuandong,Hao Yuan.Friction and wear properties of casting in-situ silicon particle reinforced ZA27 composites[J].China Foundry,2009,6(1):1-8. 被引量：1
7梁勇,文生平.森吉米尔20辊轧机计算机控制系统[J].自动化仪表,2004,25(2):52-55.
8王高松,ZHAO Zhihao,CUI Jianzhong,GUO Qiang.Microstructure and RRA Treatment of LFEC 7075 Aluminum Alloy Extruded Bars[J].Journal of Wuhan University of Technology(Materials Science),2013,28(1):184-191.
9Li Xibin ,Tan Linying,Su Chunming ,Li Meiying(Powder Metallurgy Research Institute, Central South University of Technology, Changsha, 410083, China).FRICTION AND WEAR BEHAVIOUR OF SINTERED BRASS[J].Journal of Central South University,1994,6(1):23-28.
10J.H.Yang,T.H.Zhang.THE IMPROVEMENT IN FRICTION AND WEAR RESISTANCE FORTa and Ta+C IMPLANTED Cr12 STEEL[J].Acta Metallurgica Sinica(English Letters),1998,11(2):137-140.

Transactions of Nonferrous Metals Society of China

2010年第3期

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