[1] RADFORD A,FITZGEORGE D. The effects of journal lobbing on the performance of a hydrodynamic plain journal bearing[J]. Wear,1977,45(3):311-322. [2] HARGREAVES D J. Surface waviness effects on the load-carrying capacity of rectangular slider bearings[J]. Wear,1991,145(1):137-151. [3] RASHEED H E. Effect of surface waviness on the hydrodynamic lubrication of a plain cylindrical sliding element bearing[J]. Wear,1998,223(1-2):1-6. [4] ENE N M,DIMOFTE,KEITH T G. A stability analysis for a hydrodynamic three-wave journal bearing[J]. Tribology International,2008,41(5):434-442. [5] 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(12):1241-6. XIANG Jianhua,ZOU Linfeng,LIAO Ridong. Influence of circularity errors of the lubrication performance of sliding bearings[J]. Transactions of Beijing Institute of Technology,2012(12):1241-1246. [6] 康锋,张耀强,杨茹萍,等. 考虑波纹度和不平衡力的薄壁轴承-转子系统非线性分析[J]. 轴承,2016(6):1-5. KANG Feng,ZHANG Yaoqiang,YANG Ruping,et al. Nonlinear analysis of thin-walled bearing-rotor system considering waviness and unbalanced force[J]. Bearing,2016(6):1-5. [7] 黄旻舒,李桂芳. 滑动轴颈轴承表面形貌的摩擦学研究[J]. 森林工程,2004(1):36-39. HUANG Minshu,LI Guifang. Study on triblogy of scraping surface topography of sliding bearing[J]. Forest Engineering,2004(1):36-39. [8] 王涛,王优强,王建,等. 表面波纹度对油水两相润滑轧机油膜轴承弹流润滑的影响[J]. 润滑与密封,2016(11):45-49. WANG Tao,WANG Youqiang,WANG Jian,et al. Effect of surface waviness on elastohydrodynamic lubrication of oil-water two-phase lubricated rolling mill oil film bearings[J]. Lubrication and Sealing,2016(11):45-49. [9] WANG Xinkuan,XU Qiao,HUANG Ming,et al. Effects of journal rotation and surface waviness on the dynamic performance of aerostatic journal bearings[J]. Tribology International,2017(112):1-9. [10] WANG Xinkuan,XU Qiao,WANG Baorui,et al. Effect of surface waviness on the static performance of aerostatic journal bearings[J]. Tribology International,2016(103):394-405. [11] CUI Hailong,WANG Yang,YUE Xiaobin,et al. Effects of manufacturing errors on the static characteristics of aerostatic journal bearings with porous restrictor[J]. Tribology International,2017(115):246-260. [12] 几何量实用测试手册[M]. 北京:机械工业出版社,1985. Practical test manual for geometric quantity[M]. Beijing:China Machine Press,1985. [13] OGRODNIK P J. Operation of rotor-bearing systems subjected to dynamic conical misalignment[D]. Staffordshire,UK:Staffordshire University,1989. [14] XU Wubin. The effect of manufacturing tolerances on the steady state and dynamic performance of rotating machines supported by journal bearings[D]. Staffordshire University,2010. [15] 徐武彬,王镇江,陈其兵,等. 基于Sommerfeld数的滑动轴承转子系统稳定性分析[J]. 中国机械工程,2009(23):2875-2879. XU Wubin,WANG Zhenjiang,CHEN Qibing,et al. Stability analysis of hydrodynamic journal bearing system based on sommerfeld number[J]. China Mechanical Engineering,2009(23):2875-2879. [16] GOODWIN M J. Dynamics of rotor-bearing systems[D]. London:Unwin Hyman,1989. [17] XU Wubin,OGRODNIK P J,LI Bing,et al. Effect of journal out-of-roundness on stability of a symmetric hydrodynamic journal bearing system. Part 1:Theoretical analysis[J]. Journal of Engineering Tribology Part J,Journal of Engineering Tribology,2015,229:1347-1358. [18] XU Wubin,OGRODNIK P J,LI Bing,et al. Effect of journal out-of-roundness on stability of a symmetric hydrodynamic journal bearing system. Part 2:Experimental investigation[J]. Journal of Engineering Tribology Part J,Journal of Engineering Tribology,2015,229(11):1359-1371. [19] 陈存祖. 关于油浸径向滑动轴承摩擦功率计算问题的探讨[J]. 南昌水专学报,1988(1):17-23. CHEN Cunzu. Discussion on the calculation of friction power of oil-immersed journal bearing[J]. Journal of Nanchang Water University,1988(1):17-23. |