第 5 期                     李哲, 等: 条状润湿表面对面接触限量润滑油膜的影响研究                                       607

                 lubrication method[J]. Journal of Microelectromechanical Systems,  007.
                 2011, 20(4): 991–1000. doi: 10.1109/JMEMS.2011.2159094.  [15]  Zang Shuyan, Guo Feng, Li Chao. Influence of surface wettability
            [  3  ]  Allam  I  M.  Solid  lubricants  for  applications  at  elevated  on lubrication by limited lubricant supply[J]. Tribology, 2017, 37(4):
                 temperatures[J].  Journal  of  materials  science,  1991,  26(15):  3977–  429–434 (in Chinese) [臧淑燕, 郭峰, 李超. 表面亲润性对限量供
                 3984. doi: 10.1007/BF02402936.                    油润滑影响的研究[J]. 摩擦学学报, 2017, 37(4): 429–434].
            [  4  ]  Wedeven L D, Evans D, Cameron A. Optical analysis of ball bearing  [16]  Wang Qian, Guo Feng, Han Suli. Influence of surface wettability on
                 starvation[J].  Journal  of  Lubrication  Technology,  1971,  93(3):  the  lubricating  oilSupply  in  a  slider-on-disc  contact[J].  Tribology,
                 349–361. doi: 10.1115/1.3451591.                  2019, 39(1): 76–84 (in Chinese) [王茜, 郭峰, 韩素立. 固体表面润
            [  5  ]  Hamrock  B  J,  Dowson  D.  Isothermal  elastohydrodynamic  湿性对滑块-盘接触润滑供油的影响[J]. 摩擦学学报, 2019, 39(1):
                 lubrication of point contacts: Part IV—starvation results[J]. Journal  76–84].
                 of Lubrication Technology, 1977, 99(1): 15–23. doi: 10.1115/1.3452  [17]  Wang  Quandai,  Li  Zhilong,  Guo  Bingbing,  et  al.  Tribological
                 973.                                              properties  of  surface  wettability  under  different  lubrication
            [  6  ]  Nogi,  Takashi.  Film  Thickness  and  Rolling  Resistance  in  Starved  regimes[J]. Tribology, 2018, 38(6): 665–672 (in Chinese) [王权岱,
                 Elastohydrodynamic Lubrication of Point Contacts With Reflow[J].  李志龙, 郭兵兵, 等. 不同润滑状态下表面润湿性的摩擦学特性研
                 Journal  of  Tribology,  2015,  137(4):  041502.  doi:  10.1115/1.4030  究[J]. 摩擦学学报, 2018, 38(6): 665–672].
                 203.                                          [18]  Li X M, Guo F, Wong P L, et al. Regulation of lubricant supply by
            [  7  ]  Wijnant Y H. Contact dynamics in the field of elastohydrodynamic  wettability  gradient  in  rolling  EHL  contacts[J].  Tribology
                 lubrication[M]. Universiteit Twente, 2003.        International,  2018,  120:  565–574.  doi:  10.1016/j.triboint.2018.
            [  8  ]  Kingsbury  E,  Schritz  B,  Prahl  J.  Parched  elasto  hydrodynamic  01.020.
                 lubrication  film  thickness  measurement  in  an  instrument  ball  [19]  Liu C L, Guo F, Wong P L, et al. Tribological behaviour of surfaces
                 bearing[J].  Tribology  transactions,  1990,  33(1):  11–14.  doi:  with stepped wettability under limited lubricant supply[J]. Tribology
                 10.1080/10402009008981923.                        International, 2020: 141.
            [  9  ]  Guangteng  G,  Cann  P  M,  Spikes  H  A.  A  study  of  parched  [20]  Huang W, Shen C, Liao S, et al. Study on the ferrofluid lubrication
                 lubrication[J].  Wear,  1992,  153(1):  91–105.  doi:  10.1016/0043-  with  an  external  magnetic  field[J].  Tribology  Letters,  2011,  41(1):
                 1648(92)90263-8.                                  145–151. doi: 10.1007/s11249-010-9693-2.
            [10]  Ebner  M,  Yilmaz  M,  Lohner  T,  et  al.  On  the  effect  of  starved  [21]  Xu M, Dai Q, Huang W, et al. Using magnetic fluids to improve the
                 lubrication on elastohydrodynamic (EHL) line contacts[J]. Tribology  behavior  of  ball  bearings  under  starved  lubrication[J].  Tribology
                 International,  2018,  118:  515–523.  doi:  10.1016/j.triboint.2017.  International,  2020,  141:  105950.  doi:  10.1016/j.triboint.2019.
                 06.004.                                           105950.
            [11]  Pemberton  J,  Cameron  A.  A  mechanism  of  fluid  replenishment  in  [22]  Hirayama T, Ikeda M, Suzuki T, et al. Effect of nanotexturing on
                 elastohydrodynamic  contacts[J].  Wear,  1976,  37(1):  185–190.  doi:  increase  in  elastohydrodynamic  lubrication  oil  film  thickness[J].
                 10.1016/0043-1648(76)90190-3.                     Journal  of  Tribology,  2014,  136(3):  031501.  doi:  10.1115/1.4027
            [12]  Chiu Y P. An analysis and prediction of lubricant film starvation in  286.
                 rolling contact systems[J]. ASLE Transactions, 1974, 17(1): 22–35.  [23]  Guo  F,  Wong  P  L,  Fu  Z,  et  al.  Interferometry  measurement  of
                 doi: 10.1080/05698197408981435.                   lubricating  films  in  slider-on-disc  contacts[J].  Tribology  Letters,
            [13]  Van Zoelen M T, Venner C H, Lugt P M. The prediction of contact  2010, 39(1): 71–79. doi: 10.1007/s11249-010-9575-7.
                 pressure–induced film thickness decay in starved lubricated rolling  [24]  Guo  L,  Wong  P  L,  Guo  F.  Boundary  yield  stress  and  interfacial
                 bearings[J].  Tribology  Transactions,  2010,  53(6):  831–841.  doi:  potential  energy  barrier  in  thin  film  hydrodynamic  lubrication[J].
                 10.1080/10402004.2010.492925.                     Tribology Letters, 2016, 62(1): 7. doi: 10.1007/s11249-016-0658-y.
            [14]  Guo F, Zang S, Li C, et al. Lubrication film generation in slider-on-  [25]  Senatore  A,  Rao  T.  Partial  slip  texture  slider  and  journal  bearing
                 disc  contact  under  limited  lubricant  supply[J].  Tribology  lubricated with Newtonian fluids: a review[J]. Journal of Tribology,
                 International,  2018,  125:  200–208.  doi:  10.1016/j.triboint.2018.02.  2018, 140(4): 040801. doi: 10.1115/1.4039226.