表面复合强化处理后Ti17钛合金的显微组织和耐磨性能

Microstructure and Wear Resistance of Ti17 Titanium Alloy after Surface Treatment with Composite Strengthening Process

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摘要分别以硅青铜和YG-8合金为电极进行瞬态电能表面强化结合离子束增强沉积硅青铜对Ti17钛合金进行表面复合强化,研究了电极材料对其组织和耐磨性能的影响。结果表明:Ti17钛合金表面复合强化层由瞬态电能强化层和铜沉积层组成,铜沉积层组织致密,无气孔、微裂纹等缺陷,与瞬态电能强化层结合良好;以硅青铜为电极强化处理后的钛合金表面复合强化层厚约6μm,强化层及界面处无微孔、裂纹等缺陷,表面硬度为517 HV,耐磨性能较未强化的提高了20倍;以YG-8合金为电极处理后的钛合金表面复合强化层厚约15μm,在其瞬态电能强化层中存在少量的微孔和微裂纹,表面硬度为537HV,耐磨性能较未强化的提高了30倍;复合强化后Ti17钛合金的摩擦因数比未强化的略有下降。 The surface of Ti17 titanium alloy was composite strengthened by the electrical discharge surface hardening with silicone bronze and YG-8alloy as electrode material respectively and consequent ion beam enhanced deposition with silicone bronze,and the effects of different electrode materials on the microstructure and wear resistance were investigated.The results show that the composite strengthening coating on the Ti17 titanium alloy was composed of the electrical discharge strengthening layer and bronze deposition layer.The bronze deposition layer had a compact microstructure without defects such as pores and micro-cracks and bonded well with the electrical discharge strengthening layer.The thickness of the composite strengthening coating formed with the electrode made of silicone bronze was 6μm,and the surface hardness of the surface strengthened titanium alloy was 517 HV,and then the wear resistance was 20 times larger than that of Ti17 titanium alloy without strengthening;the thickness of the composite strengthening coating with YG-8alloy as electrode material was 15μm,the surface hardness was 537 HV,and the wear resistance was 30 times larger than that of the alloy without strengthening.The friction coefficient of the Ti17 titanium alloy after composite strengthening was slightly reduced compared with that before strengthening.

作者王少鹏乔生儒张程煜

机构地区西北有色金属研究院腐蚀与防护研究所西北工业大学超高温结构复合材料实验室

出处《机械工程材料》 CAS CSCD 北大核心 2015年第12期17-21,共5页 Materials For Mechanical Engineering

基金国家重点基础研究发展计划项目(2012CB625100)

关键词复合强化层耐磨性瞬态电能离子束增强沉积 composite strengthening coating wear resistance electrical discharge ion beam enhanced deposition

分类号 TG146.2 [金属学及工艺—金属材料]

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参考文献18

1LIU X Y, CHU P K, DING C X. Surface modification of titanium, litanium alloys, and related materials for biomedical appliealions [ J ]. Materials Science and Engineering: R: Reports. 2004.47(3/4) :49-121.
2冯璐璐,李全通,尹志朋,高星伟.表面激光冲击强化对钛合金超高周弯曲疲劳性能的影响[J].机械工程材料,2015,39(8):79-82. 被引量：3
3WIIA.IAMS J C, STARKE E A. Progress in structural materials for aerospace systems [J]. Acta Malerialia, 2003, 51(19): 5775-5799.
4秦林,唐宾,赵晋香,徐重.钛合金Ti6 Al4 V表面渗钼层的摩擦磨损性能[J].中国有色金属学报,2003,13(3):570-573. 被引量：45
5PANG W, MAN H C, YUE T M. Laser surface coaling of Mo-WC metal matrix composite on Ti6A14V alloy [J ]. Materials Science and Eraineering: A, 2005, 390(1/2): 144-153.
6LEE H G, SIMAO J, ASP1NWALI. D K, et M. Electrical discharge surlace alloying[J]. Journal of Materials Processing Technology, 2004,149 ( 1 ) : 334-3,i0.
7董鑫,李培源,王旭,高潮,程礼.腐蚀对TC17钛合金超高周疲劳性能的影响[J].机械工程材料,2014,38(11):76-79. 被引量：9
8肖卫东,赵永武,尚勇军,刘智渭,董远宝.等离子喷涂Al_2O_3-TiO_2涂层的干摩擦磨损特性[J].江南大学学报（自然科学版）,2009,8(1):76-80. 被引量：5
9LI Z W, GAO W, YOSHIHARA M. et al. Improving oxidation resistance of Ti3Al and TiA1 intermemllie compounds with electro-spark deposit coatings[J]. Materials Science and Engineering: A, 2003,3l 7( 1 ) : 243-252.
10汪瑞军,钱乙余,刘军.电火花强化WC92Co8复合层界面行为研究[J].机械工程学报,2004,40(6):196-198. 被引量：8

二级参考文献37

1张真源,王弘.304不锈钢的超高周疲劳性能[J].机械工程材料,2008,32(1):79-80. 被引量：16
2刘文才,董杰,翟春泉,丁文江.喷丸对高强度变形镁合金ZK60-T5高周疲劳性能的影响[J].郑州大学学报（工学版）,2009,30(1):1-5. 被引量：4
3乔生儒,韩栋,李玫.钢铁表面电火花淬火组织超细化及机理[J].机械工程材料,2004,28(8):7-9. 被引量：32
4丁传贤,张叶方.等离子喷涂涂层材料[J].表面工程,1994(4):1-7. 被引量：9
5陈忠燮.电火花表面强化工艺.北京:机械工业出版社,1987
6Arvand A L, Narendra B D.Synthesis on boride coating on steel using high energy density process:densite process; comparative study of evolution of microstructure. Materials Characterization, 1999, 44(1):31～44
7陶春虎,刘庆泉.航空用钛合金的失效及其预防.北京:国防工业出版社,2002
8WANG Y L, JIN Y S, WEN S Z. The analysis of the friction and wear mechanisms of plasma-sprayed coating at 450 ℃ [ J ]. Wear, 1988,128:267-276.
9DAI W W, DING C X. Wear mechanism of plasma-sprayed TiO2 coating against stainless steel[ J]. Wear, 1996,196:238-242.
10莱茵斯C,皮特尔斯M编.陈振华等译.钛与钛合金[M].北京:化学工艺出版社,2005.369

共引文献69

1WANG Hai-dou XU Bin-shi LIU Jia-jun ZHUANG Da-ming.Wear-resistance and anti-scuffing of multi-arc ion plating molybdenum films[J].中国有色金属学会会刊：英文版,2004,14(z1):391-394.
2王少鹏,潘晓龙,李争显,王宝云,严鹏,姬寿长.靶电流对电弧离子镀TiAlN膜层组织及成分的影响[J].真空科学与技术学报,2008,28(S1):64-67. 被引量：3
3唐长斌,刘道新,李凡巧,张卿,张晓化.离子束增强沉积Ti-Mo多层膜和TiMo合金膜及其性能[J].中国表面工程,2010,23(4):15-21. 被引量：1
4李佳,夏长清,古一.Effect of temperature on microstructure of molybdenum diffusion coating on titanium substrate[J].Journal of Central South University of Technology,2004,11(1):15-18.
5秦妍梅,范爱兰,秦林,渠毓萍,唐宾.纯钛Mo-N渗镀改性层在人工体液中的腐蚀行为[J].理化检验（物理分册）,2005,41(3):117-119. 被引量：3
6吴安如,夏长清.钛合金钼化涂层界面组织的高温演化[J].热加工工艺,2005,34(3):33-36. 被引量：1
7吴安如,夏长清,戴晓元.钛合金表面渗钼涂层的组织和性能研究[J].矿冶工程,2005,25(3):76-80. 被引量：5
8夏长清,李佳,古一,彭小敏,武文花.NiCrAlY涂层/TC4基体界面反应机理[J].中南大学学报（自然科学版）,2005,36(4):550-554. 被引量：12
9焦磊,乔生儒,张程煜,马侃,韩栋,Dina Gertsriken,Vladimir Mazanko.超声波与电火花表面复合强化Ti17合金的疲劳性能(英文)[J].稀有金属材料与工程,2010,39(12):2091-2094. 被引量：9
10王文波,贺志勇,王振霞,徐重.双辉等离子表面合金化技术形成表面阻燃钛合金的展望[J].世界科技研究与发展,2005,27(3):37-40. 被引量：7

1王少鹏,乔生儒,葛志宏.钛合金表面复合强化后的热疲劳性能[J].有色金属,2007,59(4):23-26.
2王少鹏,乔生儒,葛志宏,李平,薛若茵.Ti17瞬态电能表面强化后的组织和耐磨性[J].材料热处理学报,2006,27(4):109-113. 被引量：5
3袁琳,高原,张维,王成磊,黄承兴.201不锈钢离子渗氮和离子镀TiN复合强化层的耐蚀性[J].材料热处理学报,2011,32(S1):144-147. 被引量：8
4汤精明.TiC-TiB_2电火花复合强化层组织与耐磨性[J].材料导报,2012,26(14):115-118. 被引量：1
5葛志宏,乔生儒,王少鹏,张丽丽,卢国锋.40CrNiMoA钢瞬态电能强化层的摩擦磨损性能[J].新技术新工艺,2006(7):61-63.
6林乃明,王鹤峰,孙晓亮,范爱兰,唐宾.P110钢表面瞬态电能沉积镍基合金涂层的摩擦磨损特性[J].稀有金属材料与工程,2012,41(S2):500-504. 被引量：3
7庄哲峰,林伟业.软氮化对YF40　Mn　VS钢弯曲疲劳性能的影响[J].福建农业大学学报,1994,23(2):216-219.
8郭海祥,石益仁,安明耀,范其贵.低温渗镀表面复合强化[J].铸锻热（热处理实践）,1993(4):16-20. 被引量：2
9葛志宏,乔生儒.40CrNiMoA钢表面ESD-IBED复合强化层的组织和性能[J].有色金属,2009,61(1):1-5. 被引量：3
10周荣林,郭德伦,李从卿.高强钛合金TIG焊接[J].焊接,2004(11):29-31. 被引量：6

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表面复合强化处理后Ti17钛合金的显微组织和耐磨性能

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