The tribological behavior of a surface-nanocrystallized magnesium alloy AZ31 sheet after ultrasonic shot peening treatment 被引量：8

下载PDF

导出

摘要 A magnesium alloy AZ31 sheet was processed by ultrasonic shot peening treatment to fabricate a surface nanocrystalline,and a ball-on-disk dry sliding wear test was performed to evaluate the tribological behavior after treatment.The microstructure observation indicated a gradient nanocrystalline structure was formed after USSP treatment.The microhardness at the top surface was improved from 60 HV to 145 HV after treatment.The formed nanocrystalline resulted in an easy formation of MgO patches on the surface and reduced the coefficient of friction.Moreover,the formed nanocrystalline leaded to a retard of delamination with increasing the sliding speed and applied load,which was due to its stronger sub-surface.Under high sliding speed(0.5 m/s)and high applied load(50 N),it was firstly found that the formed nanocrystalline prevented the happening of thermal softening and melting.The possible reasons accounting for the prevention of thennal softening and melting were discussed accordingly.

作者 Jianyue Zhang Yongxin Jian Xuzhe Zhao Dean Meng Fusheng Pan Qingyou Han

机构地区 School of Engineering Technology State Key Laboratory for Mechanical Behavior of Materials Böllhoff Inc School of Automobile College of Materials Science and Engineering

出处《Journal of Magnesium and Alloys》 SCIE EI CAS CSCD 2021年第4期1190-1203,共14页 镁合金学报（英文）

关键词 AZ31Mg alloy Ultrasonic shot peening Surface-nanocrystallization Wear mechanism

分类号 U466 [机械工程—车辆工程] TG668 [交通运输工程—载运工具运用工程] TG146.22 [交通运输工程—道路与铁道工程]

引文网络
相关文献

参考文献5

1Alan A.Luo.Magnesium casting technology for structural applications[J].Journal of Magnesium and Alloys,2013,1(1):2-22. 被引量：92
2Fusheng Pan,Mingbo Yang,Xianhua Chen.A Review on Casting Magnesium Alloys： Modification of Commercial Alloys and Development of New Alloys[J].Journal of Materials Science & Technology,2016,32(12):1211-1221. 被引量：88
3J.P.Weiler.A review of magnesium die-castings for closure applications[J].Journal of Magnesium and Alloys,2019,7(2):297-304. 被引量：26
4S.Ramesh,Gajanan Anne,H.Shivananda Nayaka,Sandeep Sahu,M.R.Ramesh.Investigation of dry sliding wear properties of multi-directional forged Mg-Zn alloys[J].Journal of Magnesium and Alloys,2019,7(3):444-455. 被引量：4
5Jiang-Man Xu,Yong Liu,Bin Jin,Jia-Xin Li,Shi-Ming Zhai,Xiang-Jie Yang,Jian Lu.Thermal Stability of Nanocrystalline AZ31 Magnesium Alloy Fabricated by Surface Mechanical Attrition Treatment[J].Acta Metallurgica Sinica(English Letters),2015,28(9):1162-1169. 被引量：4

二级参考文献55

1R. Ueji, N. Tsuji, Y. Minamino, Y. Koizumi, Acta Mater. 50, 4177 (2000). 被引量：1
2R. Bohn, T. Haubopld, R. Birringer, H. Gleiter, Scr. Metall. Mater. 25, 811 (1991). 被引量：1
3R.Z. Valiev, T.C. Lowe, A.K. Mukherjee, JOM 52, 37 (2000). 被引量：1
4R.Z. Yaliev, J. Mater. Sci. 42, 1483 (2007). 被引量：1
5V.V. Popov, E.N. Popova, A.V. Stolbovskiy, V.P. Pilyugin, Mater. Sci. Eng. A 528, 1491 (2011). 被引量：1
6G. Liu, S.C. Wang, X.F. Lou, K. Lu, Scr. Mater. 44, 1791 (2001). 被引量：1
7W.J. Kim, C.W. An, Y.S. Kim, S.I. Hong, Scr. Mater. 47, 39 (2002). 被引量：1
8T.H. Fang, W.L. Li, N.R. Tao, K. Lu, Science 331, 1587 (2011). 被引量：1
9Y. Todaka, M. Umemoto, J. Yin, Z.G. Liu, K. Tsuchiya, Mater. Sci. Eng. A 462, 264 (2007). 被引量：1
10A. Amanov, Y.S. Pyun, S. Sasaki, Tribol. Int. 72, 187 (2014). 被引量：1

共引文献192

1毛训聪,陈乐平,彭聪,魏陈阳,辛周媛.脉冲磁场对Mg-6Zn-0.5Zr-1Gd合金组织及性能的影响[J].特种铸造及有色合金,2022,42(7):898-903. 被引量：3
2王国庆,丁红燕,周广宏.镁合金表面非晶化处理的进展和展望[J].热加工工艺,2019,0(24):1-4. 被引量：2
3高国栋.富士通FN640 SlimMO USB[J].电子测试,2000,13(4):71-71.
4王少勇,秦玲.内审的监督体系和运行机制[J].中国审计,2000(4):51-51.
5郭丽.沉重的务虚[J].青岛教育学院学报,2000,13(1):26-30. 被引量：1
6王顺成,蔡畅,戚文军,郑开宏.锻压变形量对铸锻成形A356铝合金组织及性能的影响[J].塑性工程学报,2014,21(1):58-64. 被引量：15
7刘智超,李尧,杨俊杰.镁合金相关技术研究及应用[J].江汉大学学报（自然科学版）,2014,42(3):41-46.
8郭永春,王艳山,彭渝丽,杨忠,陈琪,单聪.冷却速度对Mg-9Gd-3Y合金铸态组织与性能的影响[J].稀有金属,2015,39(5):392-398. 被引量：7
9梅俊,刘文才,吴国华,张杨,张逸韬,洪毅恺,张若曦,肖旅,丁文江.Effect of complex melt-refining treatment on microstructure and mechanical properties of sand-cast Mg–10Gd–3Y–0.5Zr alloy[J].Transactions of Nonferrous Metals Society of China,2015,25(6):1811-1821. 被引量：3
10Jun Yang,Qu-dong Wang,Huan Wang.Effects of heat treatment on microstructure and mechanical properties of Mg-8Gd-3Y-0.5Zr(wt.%)alloy fabricated by semi-continuous casting[J].China Foundry,2015,12(4):261-268. 被引量：2

同被引文献221

1Yan Dai,Xian-Hua Chen,Tao Yan,Ai-Tao Tang,Di Zhao,Zhu Luo,Chun-Quan Liu,Ren-Ju Cheng,Fu-Sheng Pan.Improved Corrosion Resistance in AZ61 Magnesium Alloys Induced by Impurity Reduction[J].Acta Metallurgica Sinica(English Letters),2020,33(2):225-232. 被引量：6
2Cong Wang,Tianjiao Luo,Yunteng Liu,Qiuyan Huang,Yuansheng Yang.Residual stress and precipitation of Mg-5Zn-3.5Sn-1Mn-0.5Ca-0.5Cu alloy with different quenching rates[J].Journal of Magnesium and Alloys,2021,9(2):604-612. 被引量：2
3Zhaohui Shan,Jie Yang,Jianfeng Fan,Hua Zhang,Qiang Zhang,Yucheng Wu,Weiguo Li,Hongbiao Dong,Bingshe Xu.Extraordinary mechanical properties of AZ61 alloy processed by ECAP with 160° channel angle and EPT[J].Journal of Magnesium and Alloys,2021,9(2):548-559. 被引量：3
4Qian Cheng,Liang Chen,Jianwei Tang,Guoqun Zhao,Lu Sun,Cunsheng Zhang.A comprehensive analysis on microstructure evolution of Mg-5.65Zn-0.66Zr alloy during hot deformation[J].Journal of Magnesium and Alloys,2021,9(2):520-531. 被引量：3
5Yuxuan Liu,Yangxin Li,Qingchun Zhu,Huan Zhang,Xixi Qi,Jinhui Wang,Peipeng Jin,Xiaoqin Zeng.Twin recrystallization mechanisms in a high strain rate compressed Mg-Zn alloy[J].Journal of Magnesium and Alloys,2021,9(2):499-504. 被引量：3
6Ji Hyun Hwang,A.Zargaran,Gyeongbae Park,O.Lee,B.-J.Lee,Nack J.Kim.Effect of 1Al addition on deformation behavior of Mg[J].Journal of Magnesium and Alloys,2021,9(2):489-498. 被引量：7
7Yunwei Gui,Lingxiao Ouyang,Yujie Cui,Huakang Bian,Quanan Li,Akihiko Chiba.Grain refinement and weak-textured structures based on the dynamic recrystallization of Mg–9.80Gd–3.78Y–1.12Sm–0.48Zr alloy[J].Journal of Magnesium and Alloys,2021,9(2):456-466. 被引量：4
8Zhang-Zhi Shi,Hong-Ting Chen,Ke Zhang,Fu-Zhi Dai,Xue-Feng Liu.Crystallography of precipitates in Mg alloys[J].Journal of Magnesium and Alloys,2021,9(2):416-431. 被引量：8
9卢柯,刘学东,胡壮麒.纳米晶体材料的Hall—Petch关系[J].材料研究学报,1994,8(5):385-391. 被引量：85
10韩英芬,刘建睿,沈淑娟,黄卫东.镁合金中的非金属夹杂物及其净化方法[J].铸造技术,2006,27(6):613-616. 被引量：28

引证文献8

1潘复生,蒋斌.镁合金塑性加工技术发展及应用[J].金属学报,2021,57(11):1362-1379. 被引量：43
2Jianyue Zhang,Xuzhe Zhao,De'an Meng,Qingyou Han.Utilization of surface nanocrystalline to improve the bendability of AZ31 Mg alloy sheet[J].International Journal of Minerals,Metallurgy and Materials,2022,29(7):1413-1424. 被引量：1
3杨辉,徐刚,尹佳,张琪,王梦泽,孙雨桐.喷丸对2024-T351铝合金表面完整性影响的研究[J].机械制造,2022,60(3):43-48. 被引量：1
4熊奇,朱鑫辉,赵翔,范李平.AZ31镁合金管件电磁吸引式成形动态特性研究[J].电工技术学报,2023,38(10):2577-2588. 被引量：2
5贺帅,张治民.Mg-9Gd-3.5Y-2Zn-0.5Zr合金材料喷丸强化工艺及摩擦磨损性能研究[J].表面技术,2024,53(7):96-106.
6陈庆强,马冠杰,孙捷,孙幸子,于亚磊,李顺龙.时效析出强化对GW83镁合金摩擦磨损行为的影响[J].材料工程,2024,52(4):127-137.
7熊锦林,吴艳,雷琪,罗强,马炎漫,曾如铁.镁基复合材料及其制备工艺研究现状与展望[J].材料科学与工程学报,2024,42(2):340-350.
8徐刚,薛涛,胡彦华,肖雄,曹一,张琪.喷丸覆盖率对2024-T351铝合金表面完整性的影响[J].航空制造技术,2024,67(13):106-112.

二级引证文献47

1王勇,张卫文,王智.铝/钛三维互穿复合材料的制备和力学性能[J].特种铸造及有色合金,2022,42(12):1506-1511.
2Yuanding Huang,Bin Jiang.Editorial for special issue on developments of magnesium alloys for structural and functional applications[J].International Journal of Minerals,Metallurgy and Materials,2022,29(7):1307-1309.
3温珈毅,王悦东.基于等效结构应力法的镁合金接头疲劳寿命预测[J].机械与电子,2022,40(7):27-31. 被引量：1
4潘复生,蒋斌,宋江凤,王石军.加快盐湖镁基结构与功能材料发展的若干思考[J].青海科技,2022,29(4):4-9. 被引量：1
5刘飞亚,辛仁龙,崔洪芝,刘庆.Mg⁃Al合金中Mg_(17)Al_(12)相与镁基体取向关系的透射电子显微学研究[J].电子显微学报,2022,41(4):428-434.
6王树梁,戴仲谋,郭化超,王雪兆,房玉鑫.热处理对铸造Mg-7.5Gd-3Y-0.5Zr合金动态冲击行为的影响[J].有色金属工程,2022,12(11):44-51. 被引量：2
7宋江凤,潘复生.加快推进我国镁产业发展的若干思考[J].现代交通与冶金材料,2022,2(6):1-5. 被引量：5
8何鹏飞,何维均,刘国佳,蒋斌.AZ31镁合金波纹坯料轧制后的微观组织与力学性能[J].材料热处理学报,2022,43(11):27-38. 被引量：4
9常海,赵聪铭,王翠菊.挤压复合AZ91-(SiC_(P)/AZ91)复合板材显微组织和力学性能[J].材料工程,2023,51(1):16-25. 被引量：2
10李杨,胡红军,钟韬,袁婷,彭威,胡刚.铝/镁双金属复合成形技术的研究现状及发展趋势[J].材料热处理学报,2022,43(12):1-9. 被引量：4

1YUAN Yuan,WANG Heng,HU Lian-xi,SUN Hong-fei,FANG Wen-bin.Hydriding and microstructure nanocrystallization of ZK60 Mg alloy by reaction milling in hydrogen[J].Transactions of Nonferrous Metals Society of China,2009,19(S02):363-367. 被引量：2
2Yangzhi CHEN,Yifan LIN.A calculation method for friction coefficient and meshing efficiency of plastic line gear pair under dry friction conditions[J].Friction,2021,9(6):1420-1435. 被引量：1
3WEN Yu-Hua,ZHOU Fu-Xin,LIU Yue-Wu.Molecular Dynamics Simulation of Microstructure of Nanocrystalline Copper[J].Chinese Physics Letters,2001,18(3):411-413. 被引量：5
4F.Ghadami,A.Sabour Rouh Aghdam,S.Ghadami.Characterization of MCrAlY/nano-Al_(2)O_(3) nanocomposite powder produced by high-energy mechanical milling as feedstock for high-velocity oxygen fuel spraying deposition[J].International Journal of Minerals,Metallurgy and Materials,2021,28(9):1534-1543. 被引量：3
5Zhuo Cheng,Shuize Wang,Guilin Wu,Junheng Gao,Xusheng Yang,Honghui Wu.Tribological properties of high-entropy alloys:A review[J].International Journal of Minerals,Metallurgy and Materials,2022,29(3):389-403. 被引量：8
6Bahareh Marzbanrad,Mohammad Hadi Razmpoosh,Ehsan Toyserkani,Hamid Jahed.Role of heat balance on the microstructure evolution of cold spray coated AZ31B with AA7075[J].Journal of Magnesium and Alloys,2021,9(4):1467-1478. 被引量：2
7Okoye Ikechukwu Francis,Alaekwe Ikenna.Review of Dye-Sensitized Solar Cell (DSSCs) Development[J].Natural Science,2021,13(12):496-509.
8Marcin Wesolowski.Thermodynamic model of the activity of the comet 103P/Hartley[J].Research in Astronomy and Astrophysics,2021,21(12):297-304.
9Xingke Zhao,Xusheng Hai.Microstructure and tribological behavior of the nickel-coated-graphitereinforced Babbitt metal composite fabricated via selective laser melting[J].International Journal of Minerals,Metallurgy and Materials,2022,29(2):320-326. 被引量：1
10Tian Chengguang,Zhang Xiaosheng,Xu Hong,Dong Jinxiang.Synthesis and Tribological Properties of Sodium-Ion-Exchangedα-Zirconium Phosphate[J].China Petroleum Processing & Petrochemical Technology,2021,23(4):83-94. 被引量：1

Journal of Magnesium and Alloys

2021年第4期

浏览历史

内容加载中请稍等...