陶瓷润滑油添加剂对钢-钢接触疲劳及磨损性能的影响Effect of ceramic additive in lubricating oil on contact fatigue and wear performance of steel/steel friction pair
岳文,王成彪,田斌,顾艳红,刘家浚
摘要(Abstract):
研究了一种以羟基硅酸铝为主的陶瓷润滑油添加剂对钢-钢接触疲劳及磨损性能的影响。利用球-棒疲劳试验机进行试验,证明该陶瓷添加剂提高了摩擦副接触疲劳寿命L101.3倍,改善了钢的磨损性能。通过扫描电镜分析,发现在点蚀坑内和点蚀坑的边缘存在微裂纹被覆盖的现象;纳米压痕测试结果表明,接触表面已经形成了一层白亮色物质,并具有极高的硬度。它们可以解释陶瓷添加剂提高接触疲劳寿命及改善磨损性能的原因。
关键词(KeyWords): 陶瓷添加剂;接触疲劳;磨损;扫描电镜;纳米压痕测试
基金项目(Foundation): 中国地质大学(北京)科学钻探国家专业实验室开放基金(NLSD200501)
作者(Author): 岳文,王成彪,田斌,顾艳红,刘家浚
参考文献(References):
- [1]刘家浚.材料磨损原理及其耐磨性[M].北京:清华大学出版社,1993.
- [2]黄文轩,韩长宁.润滑油与燃料添加剂手册[M].北京:中国石化出版社,1994.
- [3]徐滨士,马世宁,梁秀兵,等.表面工程的进展[J].金属热处理,2002,27(7):1-3.XUBin-shi,MAShi-ning,LIANG Xiu-bing.Process on surface engineering[J].Heat Treatment of Metals,2002,27(7):1-3.
- [4]郑发正,孙霞,李新年.环保型润滑剂发展综述[J].润滑与密封,2004,(3):124-126.ZHENGFa-zheng,SUNXia,LI Xin-nian.Study and development status of environmental protective lubricants[J].Lubrication and Sealing,2004,(3):124-126.
- [5]董凌,陈国需,方建华.抗磨自修复添加剂的发展现状[J].合成润滑材料,2003,30(1):17-21.DONGLin,CHENG Guo-xu,FANGJian-hua.Present state of anti-wear and self-repair additives[J].Synthetic Lubricants,2003,30(1):17-21.
- [6]薛群基,刘维民.摩擦化学的主要研究领域及其发展趋势[J].化学进展,1997,9(3):311-318.XUE Qun-ji,LIU Wei-min.The research progress intribochemistry[J].Progress in Chemistry,1997,9(3):311-318.
- [7]李世珍,邓流芳.滚动轴承疲劳破损过程分析[J].轴承,2000,11:39-41.
- [8]宋宝玉,曲建俊,张锋.含碳纳米管二相流体润滑剂对钢-钢接触疲劳性能的影响[J].摩擦学学报,2003,23(6):541-545.SONG Bao-yu,QUJian-jun,ZHANGFeng,et al.Effect of carbon-nanotube-containing biphaseliquidlubricant oncontactfatigue performance of a steel-steel pair[J].Tribology,2003,23(6):541-545.
- [9]刘家浚,郭凤炜.一种摩擦表面自修复技术的应用效果及分析[J].中国表面工程,2004(3):42-45,47.LIUJia-jun,GUOFeng-wei.The application and analysis of a newself-repairingtechnology onthe frictional surface[J].China Surface Engineering,2004,(3):42-45,47.
- [10]顾艳红,田斌,岳文,等.金属陶瓷润滑油添加剂对钢-钢摩擦副磨损行为的影响及其铁谱验证[J].中国表面工程,2005(1):16-19.GUYan-hong,TIANBin,YUE Wen,et al.Effect of a cermet additive onthe wear behavior of steel-on-steel friction pair andferrographic verification[J].China Surface Engineering,2005(1):16-19.
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