论文著作 | 1 代表性期刊论文: [1] Lv Fangrui, Shangguan Yanqin, Zou Donglin, and Ji Aimin. Transient mixed-lubrication analysis of low-viscosity lubricated bearings under impact load with consideration of turbulence [J]. Physics of Fluids, 2022, 34(3): 033108. [2] Lv Fangrui, Zhang Xinjie, Ji Cuicui, and Rao Zhushi. Theoretical and experimental investigation on local turbulence effect on mixedlubrication journal bearing during speeding up [J]. Physics of Fluids, 2022, 34(11): 113104. [3] Lv Fangrui, Jiao Chunxiao, Jia Qian, and Xia Kang. Influence of structural and operating parameters on lubrication performance of water-lubricated polymer bearing with journal misalignment [J]. Lubricants, 2022, 10: 336. [4] Lv Fangrui, Jiao Chunxiao, Ta Na, Rao Zhushi. Mixed-lubrication analysis of misaligned bearing considering turbulence [J]. Tribology International, 2018, 119:19-26. [5] Lv Fangrui, Ta Na, Rao Zhushi. Analysis of equivalent supporting point location and carrying capacity of misaligned journal bearing [J]. Tribology International, 2017, 116: 26-38. [6] Lv Fangrui, Rao Zhushi, Ta Na, Jiao Chunxiao. 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. [7] Lv Fangrui, Zou Donglin, Ta Na, Rao Zhushi. Influence of local turbulent flow on the performance of a mixed-lubrication bearing [J]. Proceedings of the iMeche, Part J: Journal of Engineering Tribology, 2019, 233(7): 1029-1035. [8] Lv Fangrui, Zou Donglin, Ta Na, Rao Zhushi.Improvement of lubrication performance of water lubricated polymer bearing via enlarged axial end bearing diameter [J]. Industrial lubrication and tribology,2019, 71(4): 564-572. [9] Lv Fangrui, Jiao Chunxiao, Zou Donglin, Ta Na, Rao Zhushi. Analysis of misaligned water-lubricated polymer bearing with axial grooves [J]. Industrial lubrication and tribology, 2019, 71(3): 411-419. [10] Leng Zijun, Lv Fangrui, Zhang Jianbo, Jiao Chunxiao, Ta Na, Rao Zhushi. Study of dynamic coefficients of water film in marine stern tube bearing considering roughness and deformation [J]. Proceedings of the iMeche, Part J: Journal of Engineering Tribology, DOI: 10.1177/1350650121999172. [11] Zou Donglin, Xu Jianghai, Zhang Jing, Lv Fangrui, Ta Na, Rao Zhushi. The hydroelastic analysis of marine propellers considering the effect of the shaft: Theory and experiment [J]. Ocean Engineering, 2021, 221:108547. [12] Zou Donglin, Lv Fangrui, Ta Na, Rao Zhushi. Study on bearing force of marine propeller induced by longitudinal vibration of propulsion-shafting [J]. Ships and Offshore Structures, 2020, 15(2):162-173. 2 国际会议报告及特邀学术报告: [1] Lv Fangrui, Rao Zhushi, Ta Na. Equivalent supporting point of misaligned stern tube bearing and its effect on whirling vibration of shafting [C]. 25th International Congress on Sound and Vibration, Hiroshima, Japan, 2018. [2] Lv Fangrui, Jiao Chunxiao, Ta Na, Rao Zhushi. Stiffness and equivalent supporting point location analysis of water-lubricated stern bearing considering bending of shaft [C]. 6th World Tribology Congress, Beijing, China, 2017. [3] 吕芳蕊,邹冬林,饶柱石,塔娜. 水下机器人用水润滑轴承等效支点位置分析[C]. 第二届“高新船舶与深海开发装备”创新论坛, 武汉, 2018. (特邀报告) |