[1] SUN Jun,GUI Changlin. Hydrodynamic lubrication analysis of journal bearing considering misalignment caused by shaft deformation[J]. Tribology International,2004,37(10):841-848. [2] 孙军,桂长林,李志远. 轴变形产生的轴颈倾斜对滑动轴承润滑影响的试验研究[J]. 机械工程学报,2006,42(7):159-163 SUN Jun,GUI Changlin,LI Zhiyuan. Experimental research for effect of journal misalignment on performances of journal bearing[J]. Chinese Journal of Mechanical Engineering,2006,42(7):159-163. [3] SUN J,DENG M,FU Y,et al. Thermohydrodynamic lubrication analysis of misaligned plain journal bearing with rough surface[J]. Journal of Tribology,2010,132(1):0742-4787. [4] SUN Jun,ZHU Xinlong,ZHANG Liang,et al. Effect of surface roughness,viscosity-pressure relationship and elastic deformation on lubrication performance of misaligned journal bearings[J]. Industrial Lubrication and Tribology,2014,66(3):337-345. [5] LIU Z L,ZHOU J H,YU L,et al. Computing on pressure distribution of stern bearing liquid film reckoning in inclination of stern shaft[J]. Journal of Wuhan University of Technology,2009,31(9):111-113. [6] 张振山,戴旭东,张执南,等. 轴颈倾斜的径向轴承热弹性流体动力润滑分析[J]. 上海交通大学学报,2013,47(9):1347-1352. ZHANG Zhenshan,DAI Xundong,ZHANG Zhinan,et al. Thermoelastohydrodynamic lubrication analysis of misaligned plain journal bearings[J]. Journal of Shanghai Jiaotong University,2013,47(9):1347-1352. [7] MALLYA R,SHENOY S B,PAI R. Steady state characteristics of misaligned multiple axial groove water-lubricated journal bearing[J]. Proceedings of the Institution of Mechanical Engineers Part J Journal of Engineering Tribology,2014,229(6):712-722. [8] ZHANG X,YIN Z,JIANG D,et al. Load carrying capacity of misaligned hydrodynamic water-lubricated plain journal bearings with rigid bush materials[J]. Tribology International,2016,99:1-13. [9] ISAKSSON P,NILSSON D,LARSSON R,et al. The influence of surface roughness on friction in a flexible hybrid bearing[J]. Proceedings of the Institution of Mechanical Engineers Part J Journal of Engineering Tribology,2011,225(10):975-985. [10] HE Zhenpeng,ZHANG J H,XIE W S,et al. Misalignment analysis of journal bearing influenced by asymmetric deflection,based on a simple stepped shaft model[J]. Journal of Zhejiang University,2012,13(9):647-664. [11] LÜ F,RAO Z,NA T,et al. Mixed-lubrication analysis of thin polymer film overplayed metallic marine stern bearing considering wall slip and journal misalignment[J]. Tribology International,2017,109:390-397. [12] LÜ F,RAO Z,NA T,et al. Mixed-lubrication analysis of misaligned bearing considering turbulence[J]. Tribology International,2018,119:19-26. [13] 向建华,邹林峰,廖日东. 轴颈圆度误差对滑动轴承润滑性能的影响研究[J]. 北京理工大学学报,2012,32(12):1241-1246. XIANG Jianhua,ZOU Linfeng,LIAO Ridong. Influence of circularity errors of the journal on the lubrication performance of sliding bearings[J]. Transaction of Beijing Institute of Technology,2012,32(12):1241-1246. [14] RAO T V V L N,RANI A M A,NAGARAJAN T,et al. Analysis of journal bearing with double-layer porous lubricant film:Influence of surface porous layer configuration[J]. STLE Tribology Transactions,2013,56(5):841-847. [15] BRITO F P,MIRANDA A S,CLARO J C P,et al. The role of lubricant feeding conditions on the performance improvement and friction reduction of journal bearings[J]. Tribology International,2014,72(4):65-82. [16] HAN Y F,XIONG S W,WANG J,et al. A new singularity treatment approach for journal-bearing mixed lubrication modeled by the finite difference method with a herringbone mesh[J]. Journal of Tribology,2016,138(1):011704. [17] SUSILOWATI,TAUVIQIRRAHMAN M,JAMARI J,et al. A comparative study of finite journal bearing in laminar and turbulent regimes using CFD (computational fluid dynamic)[C]//MATEC Web of Conferences,2016,58:2261-236X. [18] 刘成,吕延军,李莎,等. 表面织构对曲轴轴承润滑性能的影响[J]. 交通运输工程学报,2017,17(3):65-74. LIU Cheng,LÜ Yanjun,LI Sha,et al. Effect of surface texture on tribological performance of crankshaft bearing[J]. Journal of Traffic and Transportation Engineering,2017,17(3):65-74 [19] GUI C L,SUN J,HE Z X,et al. A dynamic solution method for dynamically loaded bearing[J]. Tribology Transactions,2010,54:384-393. [20] SUN J,ZHU X,ZHANG L,et al. Experimental research on a three-dimensional journal orbit of a crankshaft bearing for an internal combustion engine[J]. Journal of Tribology,2014,136:031708. [21] PATIR N,CHENG H S. An average flow model for determining effects of three-dimensional roughness on partial hydrodynamic lubrication[J]. Journal of Lubrication Technology-Transactions of the ASME,1978,100(1):12-17. [22] PATIR N. Application of average flow model to lubrication between rough sliding surfaces[J]. Journal of Lubrication Technology-Transactions of the ASME,1979,101(2):220-230. |