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复合材料水润滑艉轴承结构设计研究 认领

Research on the Structure Design of Composite Water-lubricated Stern Bearing
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摘要 基于ANSYS CFX流固耦合数值计算方法,对水润滑复合材料艉轴承的润滑性能及结构设计开展研究,阐述了不同水槽结构、间隙比、长径比、直径等对轴承承载力以及水膜压力、轴承变形量、最小水膜厚度、轴承摩擦因数的影响规律。并利用水润滑轴承试验台研究了不同水槽结构对轴承启动摩擦转矩、转变速度以及摩擦因数的影响。研究表明,轴承摩擦因数、水膜最大压强、轴承最大变形随水槽数增多而增大;轴承承载力、最小水膜厚度随间隙比增大而减小,随长径比增大而增大。总结了直径为100~500 mm、长径比为2~3、间隙比为0.1%~0.2%的水润滑艉轴承承载力的变化规律,为水润滑艉轴承设计提供一定的理论依据。 Based on the ANSYS CFX fluid-structure interaction numerical calculation method,the lubrication performance and structure design of water-lubricated composite stern bearing are studied,the effects laws of different grooves,clearance ratios,length diameter ratio,and diameters on load carrying capacity,water film pressure,bearing deformation,minimum water film thickness and bearing friction coefficient are expounded.In addition,by using a water-lubricated bearing test rig,the effects of different water grooves on the starting friction torque,transition speed,and friction coefficient of the bearing are studied.The results show that the friction coefficient,maximum water film pressure,and maximum bearing deformation increase with the number of water grooves.The load carrying capacity and minimum water film thickness decrease with the increase of clearance ratio while increase with the increase of length diameter ratio.Finally,the variation of load carrying capacity with a diameter of 100~500 mm,length diameter ratio of 2~3,and clearance ratio of 0.1%~0.2%is summarized.A certain theoretical basis for the design of water-lubricated stern bearings is provided.
作者 王艳真 钟涛 张秀丽 尹忠慰 Wang Yanzhen;Zhong Tao;Zhang Xiuli;Yin Zhongwei(Marine Design and Research Institute of China,Shanghai 200011,China;School of Mechanical Engineering,Shandong University of Technology,Ji'nan 250000,China;School of Mechanical Engineering,Shanghai Jiaotong University,Shanghai 200240,China)
出处 《机械传动》 北大核心 2021年第1期90-98,共9页 Journal of Mechanical Transmission
基金 船用低速机工程研制项目(CDGC01-KT1103)。
关键词 水润滑 复合材料 滑动轴承 结构设计 流固耦合 Water-lubrication Composite material Journal bearing Structure design Fluid-structure interaction
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