Advances in thin film lubrication(TFL): From discovery to the aroused further researches 被引量：4

Advances in thin film lubrication(TFL):From discovery to the aroused further researches

导出

摘要 Thin film lubrication(TFL) is known as a mode of fluid-film lubrication regime bridging the gap between elastohydrodynamic lubrication(EHL) and boundary lubrication(BL). Since the first recorded literature published in 1995, TFL has become one of the landmarks in the development of lubrication theory over the last twenty years. This article presents an overview of the advances in the research of TFL regime. We first begin with a brief introduction of the discovery of the phenomenon, followed by the discussion of the relevant essential aspects, such as the performing approach, theory and physical model. The state-of-the-art studies on both the theoretical and experimental fields are also presented, also latter with emphasis on the review of researches in several promising applications.

作者 MA LiRan LUO JianBin

机构地区 State Key Laboratory of Tribology

出处《Science China(Technological Sciences)》 SCIE EI CAS CSCD 2015年第10期1609-1616,共8页 中国科学（技术科学英文版）

基金 supported by the National Natural Science Foundation of China(Grant No.51305225) the National Basic Research Program of China("973"Project)(Grant No.2013CB934200) Research Fund of the Tsinghua University(Grant No.20131089320)

关键词 thin film lubrication film thickness ordered structure INTERFACE 薄膜润滑 TFL 标志性建筑边界润滑弹流润滑润滑状态润滑理论物理模型

分类号 TH117.2 [机械工程—机械设计及理论] TP393.08 [自动化与计算机技术—计算机应用技术]

引文网络
相关文献

参考文献15

1LIU YuHong,WANG XiaoKang,PAN GuoShun,LUO JianBin.A comparative study between graphene oxide and diamond nanoparticles as water-based lubricating additives[J].Science China(Technological Sciences),2013,56(1):152-157. 被引量：22
2Jacob KLEIN.Hydration lubrication[J].Friction,2013,1(1):1-23. 被引量：44
3Jinjin LI,Chenhui ZHANG,Mingming DENG,Jianbin LUO.Investigations of the superlubricity of sapphire against ruby under phosphoric acid lubrication[J].Friction,2014,2(2):164-172. 被引量：13
4Teruo MURAKAMI,Seido YARIMITSU,Kazuhiro NAKASHIMA,Yoshinori SAWAE,Nobuo SAKAI.Influence of synovia constituents on tribological behaviors of articular cartilage[J].Friction,2013,1(2):150-162. 被引量：9
5Stephen HSU,Charles YING,Fei ZHAO.The nature of friction: A critical assessment[J].Friction,2014,2(1):1-26. 被引量：6
6Dirk DIETZEL,Udo DSCHWARZ,AndréSCHIRMEISEN.Nanotribological studies using nanoparticle manipulation: Principles and application to structural lubricity[J].Friction,2014,2(2):114-139. 被引量：3
7Motohisa HIRANO.Atomistics of superlubricity[J].Friction,2014,2(2):95-105. 被引量：7
8MA LiRan ZHANG ChenHui LIU ShuHai.Progress in experimental study of aqueous lubrication[J].Chinese Science Bulletin,2012,57(17):2062-2069. 被引量：14
9CAI MeiRong,GUO RuiSheng,ZHOU Feng,LIU WeiMin.Lubricating a bright future:Lubrication contribution to energy saving and low carbon emission[J].Science China(Technological Sciences),2013,56(12):2888-2913. 被引量：24
10LIU ShuHai,TAN GuiBin.Lubricating properties of oil-in-water emulsion with low oil concentration:Competitive wetting effect[J].Science China(Technological Sciences),2013,56(2):369-375. 被引量：5

二级参考文献69

1YU Xin-qi 1,2, HE Song 1, CAI Ren-ling 1 (1. Research Institute of Pressure Vessel and Process Equi pment, East China University of Science and Technology, Shanghai 200237, China,2. College of Mechanical Science and Engineering, Hebei University of Science an d Technology, Shijiazhuang 050018, China).Friction Characteristics of Mechanical Seals with Laser-textured Seal Faces[J].厦门大学学报（自然科学版）,2002,41(S1). 被引量：9
2GUO YongBo,LIANG YingChun,CHEN MingJun,BAI QingShun&LU LiHua Precision Research Engineering Institute,Harbin Institute of Technology,Harbin 150001,China.Molecular dynamics simulations of thermal effects in nanometric cutting process[J].Science China(Technological Sciences),2010,53(3):870-874. 被引量：7
3许中明,黄平.摩擦微观能量耗散机理的复合振子模型研究[J].物理学报,2006,55(5):2427-2432. 被引量：24
4Balazs A C, Emrick T. Nanoparticle polymer composites: Where two small worlds meet. Science, 2006, 314(17): 1107-1110.
5Yu C, Kim Y S, Kim D, et al. Thermoelectric behavior of segregat- ed-network polymer nanocomposites. Nano Lett, 2008, 8(12): 4428- 4432.
6Prasher R, Bhattacharya P, Phelan P. Thermal conductivity of na- noscale colloidal solutions (nanofluids). Phys Rev Lett, 2005, 94: 025901.
7Li W, Zheng S H, Cao B Q, et al. Friction and wear properties of ZrO2/SiO2 composite nanoparticles. J Nanopart Res, 2010, 13(5): 2129-2137.
8Bakunin V N, Suslov A Y, Kuzmina G N. Synthesis and application of inorganic nanoparticles as lubricant components - A review. J Nanopart Res, 2004, 6(2-3): 273-284.
9Lee K, Hwang Y, Cheong S, et al. Understanding the role of nano- particles in nano-oil lubrication. Tribol Lett, 2009, 35(2): 127-131.
10Lee K, Hwang Y, Cheong S, et al. Performance evaluation of nano-lubricants of fullerene nanoparticles in refrigeration mineral oil. Current Appl Phys, 2009, 9(2): e128-e131.

共引文献141

1LIU ShuHai,TAN GuiBin,WANG DeGuo.Linear polymer aqueous solutions in soft lubrication:From boundary to mixed lubrication[J].Science China(Technological Sciences),2013,56(7):1709-1714. 被引量：3
2赵海朝,乔玉林,臧艳,张庆.多层石墨烯作为液体石蜡添加剂的摩擦学性能(英文)[J].强激光与粒子束,2015,27(2):204-209.
3赵海朝,乔玉林,臧艳,张庆.液相剥离法制备少层石墨烯及其在去离子水中的摩擦学性能[J].硅酸盐学报,2015,43(4):437-444. 被引量：4
4刘国强,郭文清,刘志鲁,蔡美荣,王晓龙.聚合物仿生润滑剂研究进展[J].摩擦学学报,2015,35(1):108-120. 被引量：11
5解国新,丁建宁,范真,付永忠.硅基微机械表面粘附及摩擦性能的AFM试验研究[J].中国机械工程,2006,17(2):200-203. 被引量：4
6付永忠,丁建宁,杨继昌.基于AFM的微机械表面抗粘附薄膜性能[J].农业机械学报,2006,37(12):182-184. 被引量：2
7MA LiRan ZHANG ChenHui LIU ShuHai.Progress in experimental study of aqueous lubrication[J].Chinese Science Bulletin,2012,57(17):2062-2069. 被引量：14
8LIU ShuHai,TAN GuiBin.Lubricating properties of oil-in-water emulsion with low oil concentration:Competitive wetting effect[J].Science China(Technological Sciences),2013,56(2):369-375. 被引量：5
9谭桂斌,刘书海,王德国,张嗣伟.基于光学原位观测柔软摩擦副的接触率研究[J].中国科学：技术科学,2013,43(4):390-396. 被引量：7
10LI JinJin,LUO JianBin.Advancements in superlubricity[J].Science China(Technological Sciences),2013,56(12):2877-2887. 被引量：6

同被引文献29

1俞巧珍,刘枫林.国内外润滑油添加剂产业概况[J].石油商技,2010,28(1):8-12. 被引量：2
2朱立群,张玮.含润滑油微胶囊复合镀铜机理和镀层性能[J].物理化学学报,2004,20(8):795-800. 被引量：8
3李志强,任彦荣.微胶囊技术及其应用研究进展[J].化学推进剂与高分子材料,2004,2(6):19-23. 被引量：56
4徐炽焕.微胶囊的制备及其应用[J].化工新型材料,2005,33(11):75-78. 被引量：17
5谢凤,朱江.固体润滑剂概述[J].合成润滑材料,2007,34(1):31-33. 被引量：20
6管蓉,艾照全,李建宗.高分子材料在微胶囊新技术中的应用[J].高分子材料科学与工程,1997,13(5):134-138. 被引量：46
7王凯,严志军,朱新河,程东.基于接触电阻法的球-盘摩擦副点接触润滑状态研究[J].润滑与密封,2012,37(9):33-36. 被引量：6
8刘维民,许俊,冯大鹏,王晓波.合成润滑油的研究现状及发展趋势[J].摩擦学学报,2013,33(1):91-104. 被引量：123
9熊丽萍,王威,穆琳,邱麟军,何忠义,仇建伟.油酸咪唑啉作为水基润滑剂的摩擦学性能[J].润滑与密封,2013,38(12):6-10. 被引量：8
10洪玉芳,廖怀洲,张益栋,甘利锋,汪久根.润滑状态及其转化过程的测试方法[J].机电工程,2002,19(4):65-67. 被引量：1

引证文献4

1罗金琼,林博,梁浩,韦海.纳米润滑油研究进展及其在工程机械领域的应用探讨[J].润滑油,2017,32(5):7-11. 被引量：6
2刘德良,郭晨,刘真,严志军,徐久军.基于电阻法的双点接触摩擦试验装置[J].大连海事大学学报,2020,46(4):112-117.
3郭春荣.石墨烯/炭纤维复合润滑剂减摩及承载性能研究[J].炭素技术,2023,42(2):25-29.
4崔建兵,李雪,慕波,郭军红,崔锦峰,杨保平.微胶囊在聚合物材料中的应用研究进展[J].化工新型材料,2018,46(S1):1-5. 被引量：1

二级引证文献7

1燕松山,狄磊,解芳,胡瑞.TiO2硅油-微孔陶瓷自润滑材料制备[J].数字制造科学,2020(3):169-173. 被引量：3
2李征,周俊龙,孟凡善,王文健,李扬.纳米WS2和TiN对GCr15钢摩擦磨损性能的影响[J].润滑与密封,2019,44(7):85-89.
3阳智,石煜,沈兰萍,郑云龙.天然抗菌微胶囊的制备与应用[J].针织工业,2020(4):54-57. 被引量：7
4杨颖,宋岩,陈春茂.直升机主减速器润滑油研究进展[J].石油化工高等学校学报,2020,33(4):14-21. 被引量：3
5闫龙龙,厉晓英,高洪强.改性氧化石墨烯对不同种类润滑油的性能影响[J].润滑油,2021,36(1):25-29. 被引量：4
6李正浩,张玉娟,张晟卯,余来贵,张治军,王卫攀,王硕,王学宇.甲醇发动机专用润滑油的开发及摩擦学性能研究[J].润滑油,2021,36(6):35-41. 被引量：2
7李征,李杨,张春佳,魏云玲,罗仁杰,丁昊昊.Sm_(2)O_(3),BN和Si_(3)N_(4)纳米添加剂润滑油的减摩抗磨性能[J].青岛理工大学学报,2022,43(6):144-151.

1乔立鹏.TFL集团管理委员会成员变动[J].北京皮革（中外皮革信息版）（中）,2009(3):62-62.
2乔立鹏.TFL新旧管理层成功移交[J].北京皮革（中外皮革信息版）（中）,2007(5):58-58.
3乔立鹏.TFL建新研发应用中心[J].北京皮革（中外皮革信息版）（中）,2008(5):60-60.
4刘峰,范松波,周斌.DDoS攻击报文过滤器在Linux防火墙中的应用[J].长沙通信职业技术学院学报,2005,4(3):30-35. 被引量：3
5TFL重新设计改版网站[J].中国皮革,2010(11):71-71.
6Stern A,Hertz A,Zarfaty Y,Lepek A,屈勇晟.一种对磁场和震动具有低灵敏度的简单新颖的铷原子频标[J].空间电子技术,1999(4):56-61.
7张朝辉,雒建斌.纳米级润滑与表面改性研究(英文)[J].纳米技术与精密工程,2004,2(4):247-256.
8P.L.Wong,F.Guo.Effects of absorbing media on relative optical interference intensity ROII technique[J].Science China Mathematics,2001,44(S1):431-435. 被引量：1
9HUANG Ping,Patrick LIN Wong,MENG Yonggang 1. Mechatronic Engineering Department, South China University of Technology, Guangzhou 510640, China,2. Manufacturing and Management Department, City University of Hong Kong, Hongkong, China,3. State Key Laboratory of Tribology, Tsinghua University Beijing 100084, China.Influence of electric double layer on thin film lubrication and elastohydrodynamic lubrication[J].Science China Mathematics,2001,44(S1):70-77.
10乔立鹏.TFL网站改版[J].北京皮革（中外鞋讯）（下）,2010(6):63-63.

Science China(Technological Sciences)

2015年第10期

浏览历史

内容加载中请稍等...