Laser pattern-induced unidirectional lubricant flow for lubrication track replenishment 被引量：8

导出

摘要 Effective oil replenishment to the lubrication track of a running bearing is crucial to its sustainable operation.Reliable practical solutions are rare despite numerous theoretical studies were conducted in the last few decades.This paper proposes the use of surface effect,wettability gradient,to achieve the goal.This method is simple and can be nicely implemented using femtosecond laser ablation.A periodic comb-tooth-shaped pattern with anisotropic wetting capability is devised and its effect on the anisotropic spreading behaviour of an oil droplet is studied.Results show that the comb-tooth-shaped pattern enables the rearrangement of oil distribution,thereby escalating oil replenishment to the lubrication track.The effect is due to the unbalanced interfacial force created by the surface pattern.The influence of the shape and the pitch of teeth,which are the two governing factors,on oil transport is also reported.The effects of the newly devised surface pattern on lubrication are experimentally evaluated under the conditions of limited lubricant supply.These results are promising,demonstrating the reduction in bearing friction and the increase in lubricating film thickness.

作者 Chenglong LIU Feng GUO Patrick WONG Xinming LI

机构地区 School of Mechanical and Automotive Engineering Department of Mechanical Engineering

出处《Friction》 SCIE EI CAS CSCD 2022年第8期1234-1244,共11页 摩擦（英文版）

基金 The authors would like to express their gratitude to the National Natural Science Foundation of China(No.51775286) the Research Grants Council of Hong Kong(Project No.CityU11269216)for the financial support.

关键词 laser surface texture limited lubricant supply comb-tooth-shaped pattern lubricant replenishment friction coefficient

分类号 TH117 [机械工程—机械设计及理论]

引文网络
相关文献

参考文献4

1Yonggang MENG,Jun XU,Zhongmin JIN,Braham PRAKASH,Yuanzhong HU.A review of recent advances in tribology[J].Friction,2020,8(2):221-300. 被引量：71
2Mitjan KALIN,Maja KUS.New strategy for reducing the EHL friction in steel contacts using additive-formed oleophobic boundary films[J].Friction,2021,9(6):1346-1360. 被引量：10
3LIAO Qiang WANG Hong ZHU Xun LI Mingwei.Liquid droplet movement on horizontal surface with gradient surface energy[J].Science China(Technological Sciences),2006,49(6):733-741. 被引量：3
4S.ZHANG,X.ZENG,D.T.A.MATTHEWS,A.IGARTUA,E.RODRIGUEZ-VIDAL,J.CONTRERAS FORTES,V.SAENZ DE VITERI.Selection of micro-fabrication techniques on stainless steel sheet for skin friction[J].Friction,2016,4(2):89-104. 被引量：4

二级参考文献61

1[1]Manoj K,Chaudhury M K,George M W.How to make water run uphill.Science,1992,256(5063):1539-1541 被引量：1
2[2]Wasan D T,Nikolov A D,Brenner H.Droplets speeding on surfaces.Science,2001,291(5504):605-606 被引量：1
3[3]Choi S -H,Zhang-Newby B -M.Alternative method for determining surface energy by utilizing polymer thin film dewetting.Langmuir 2003,19(4):1419-1428 被引量：1
4[4]Hitoshi S,Satoshi Y.Force measurements for the movement of a water drop on a surface with a surface tension gradient.Langmuir,2003,19(3):529-531 被引量：1
5[5]Daniel S,Chaudhury M K,Chen J C.Fast drop movements resulting from the phase change on a gradient surface.Science,2001,291(5504):633-636 被引量：1
6[6]Choi S -H,Zhang-Newby B-M.Micrometer-scaled gradient surfaces generated using contact printing of octadecy-ltrichlorosilane.Langmuir 2003,19(18):7427-7435 被引量：1
7[7]Chen J C.Surface contact-its significance for multiphase heat transfer:diverse examples.J Heat Transfer,2003,125(4):549-566 被引量：1
8[8]Huang Z Q,Ding E J.Surface Wetting and Wetting Transition (in Chinese).Shanghai:Shanghai Scientific & Technical Publishers,1994.50 被引量：1
9[9]Daniel S,Chaudhury M K.Rectified motion of liquid drops on gradient surfaces induced by vibration.Langmuir,2002,18(9):3404-3407 被引量：1
10WU Shaofeng,GAO Dianrong,LIANG Yingna,CHEN Bo.Experimental Study on Influence of Dimples on Lubrication Performance of Glass Fiber-epoxy Resin Composite under Natural Seawater Lubrication[J].Chinese Journal of Mechanical Engineering,2017,30(1):110-117. 被引量：8

共引文献84

1李志文,齐博浩,刘长松,赵欣生,栗心明.不锈钢网表面润湿性的调控及其油水分离性能[J].中国表面工程,2020(5):10-17. 被引量：7
2江国琛,潘瑞,陈昶昊,胡昕宇,张红军,钟敏霖.超快激光制备水面减阻微纳结构及其耐蚀性研究[J].中国激光,2020,47(8):73-81. 被引量：14
3于强亮,蔡美荣,周峰,刘维民.油溶性有机减摩抗磨添加剂的研究进展[J].表面技术,2020,49(9):1-18. 被引量：16
4雒建斌.超滑与摩擦起源的探索[J].科学通报,2020,65(27):2966-2978. 被引量：9
5Lei CHEN,Linmao QIAN.Role of interfacial water in adhesion,friction,and wear--A critical review[J].Friction,2021,9(1):1-28. 被引量：10
6俞嘉晨,闫剑锋,李欣,曲良体.超快激光调控晶体形核与生长过程研究进展[J].中国激光,2021,48(2):316-330. 被引量：1
7Zhinan ZHANG,Nian YIN,Shi CHEN,Chengliang LIU.Tribo-informatics:Concept,architecture,and case study[J].Friction,2021,9(3):642-655. 被引量：11
8丰晓春,贾均红,高强,杨晶晶,王文珍,易戈文,王齐华.添加Ag_(2)Nb_(4)O_(11)的NiAl基复合材料的高温摩擦学性能及高温润滑机理研究[J].摩擦学学报,2021,41(2):187-196. 被引量：6
9晏倩倩,文平.硫醚键桥接的共价有机纳米添加剂的制备及其摩擦学性能研究[J].宝鸡文理学院学报（自然科学版）,2021,41(2):47-54.
10Shuai SHI,Dan GUO,Jianbin LUO.Micro/atomic-scale vibration induced superlubricity[J].Friction,2021,9(5):1163-1174. 被引量：4

同被引文献32

1刘成龙,郭峰,黄柏林,周易,栗心明.基于梳齿沟槽阵列的集油表面润滑特性[J].中国表面工程,2020(5):40-46. 被引量：12
2刘海超,郭峰,赵国垒.润滑膜厚测量的双色光干涉强度调制方法[J].摩擦学学报,2015,35(3):282-287. 被引量：47
3盛明伟,陈维山,刘军考,石胜君.航天控制力矩陀螺的润滑系统研究[J].航空动力学报,2011,26(1):228-233. 被引量：3
4吴亮,童宝宏,郭丹,马丽然,胡晓磊.油-气润滑流动行为对点接触副摩擦特性的影响[J].摩擦学学报,2018,38(6):700-710. 被引量：2
5焦云龙,刘小君,逄明华,刘焜.固体表面液滴铺展与润湿接触线的移动分析[J].物理学报,2016,65(1):348-355. 被引量：8
6陈华伟,张鹏飞,张力文,张德远,蒋滢,刘洪亮,韩志武,江雷.猪笼草口缘区表面液体单方向连续搬运机制[J].中国科学基金,2016,30(3):217-219. 被引量：109
7臧淑燕,郭峰,李超.表面亲润性对限量供油润滑影响的研究[J].摩擦学学报,2017,37(4):429-434. 被引量：13
8倪琪博,张建军,郭峰.表面速度效应对弹流润滑影响的实验研究[J].润滑与密封,2018,43(1):37-39. 被引量：3
9张迪.表面织构在滚动轴承系统中的摩擦学分析[J].轴承,2019(3):30-34. 被引量：6
10李书义,郭峰,栗心明,刘成龙.离散供油弹流润滑条件下油滴间距临界值的研究[J].中国科学：技术科学,2019,49(7):767-777. 被引量：1

引证文献8

1鹿贺伟,张建军,刘成龙,郭峰.限量供油对速度交叉工况下润滑特性的试验研究[J].摩擦学学报,2023,43(2):178-188.
2孙楠楠,晁珅,朱桂香,王永强,刘成龙,郭峰.往复运动条件下润湿梯度表面对限量供油润滑的影响[J].表面技术,2023,52(7):130-138.
3樊赛生,郭峰,荆兆刚,栗心明,刘海超,POLL G.硬脂酸吸附对轴承限量供油润滑影响[J].机械工程学报,2023,59(15):197-203.
4张国涛,马亮亮,童宝宏,梁方玲,王孝义.斜锥表面液滴的定向流动特性[J].表面技术,2023,52(12):428-439.
5金旭阳,栗心明,刘耀,杨萍,郭峰,高军斌.周期性载荷下润滑剂回填效应试验观察[J].机械工程学报,2024,60(3):203-213.
6谢自奇,刘成龙,郭峰,李兴林,王华.激光诱导梳齿沟槽阵列表面的润滑增效[J].轴承,2024(5):92-99.
7李书义,郭峰,黄柏林,金薇,梁鹏.微量供油下的线接触副润滑增效分析[J].中国机械工程,2024,35(7):1205-1211.
8李伟,李书义,郭峰.微量供油反润湿作用下润滑增效数值分析[J].摩擦学学报（中英文）,2024,44(10):1366-1373.

1Dongshi Zhang,Xinzhuo Li,Yao Fu,Qinghe Yao,Zhuguo Li,Koji Sugioka.Liquid vortexes and flows induced by femtosecond laser ablation in liquid governing formation of circular and crisscross LIPSS[J].Opto-Electronic Advances,2022,5(2):1-12. 被引量：6
2Fu WANG,Lunlin SHANG,Guangan ZHANG,Zhaofeng WANG.Polyethylene glycol derived carbon quantum dots nanofluids:An excellent lubricant for diamond-like carbon film/bearing steel contact[J].Friction,2022,10(9):1393-1404. 被引量：4
3Wahyu WIJANARKO,Hamid KHANMOHAMMADI,Nuria ESPALLARGAS.Ionic liquids as boundary additives in water-based and PAO lubricants[J].Friction,2022,10(9):1405-1423. 被引量：2
4Ziyu Liu,Limei Qi,Feng Lan,Chuwen Lan,Jun Yang,Xiang Tao.A VO_(2) film-based multifunctional metasurface in the terahertz band[J].Chinese Optics Letters,2022,20(1):167-173. 被引量：1
5Ming Xu,Tao Yang,Wenxue Yu,Ning Yang,Cuixiu Liu,Zhenhong Mai,Wuyan Lai,Kun Tao.Erratum to “Accurate determination of film thickness by low-angle x-ray reflection”[J].Chinese Physics B,2022,31(9):658-658.
6Siyu Chen,Xiyin Liu,Haoyuan Luo,Jiangmiao Yu,Fuda Chen,Yang Zhang,Tao Ma,Xiaoming Huang.A state-of-the-art review of asphalt pavement surface texture and its measurement techniques[J].Journal of Road Engineering,2022,2(2):156-180. 被引量：7
7Yuwei Hu.Implications of population ageing for the Chinese productivity[J].Economic and Political Studies,2016,4(4):454-467.
8Wang Jiannan,Liu Man,Chen Yilong,Mohamed Abbas,Chen Jiangang.Coal Tar Derived Metallocene Catalyst for Polymerization of 1-Decene into Low-viscosity Poly-α-Olefin Lubricating Base Oil[J].China Petroleum Processing & Petrochemical Technology,2022,24(3):52-60. 被引量：1
9Ruijie Liu,Dongshi Zhang,Zhuguo Li.Femtosecond laser induced simultaneous functional nanomaterial synthesis,in situ deposition and hierarchical LIPSS nanostructuring for tunable antireflectance and iridescence applications[J].Journal of Materials Science & Technology,2021(30):179-185. 被引量：4
10Chris Palmer.Access Issues Spur Local Vaccine Efforts in Developing World[J].Engineering,2022,8(8):3-5.

Friction

2022年第8期

浏览历史

内容加载中请稍等...