粗糙度(岩土工程)
润滑
分形
方位(导航)
沟槽(工程)
雷诺方程
材料科学
分形维数
流体轴承
机械
表面粗糙度
表面光洁度
职位(财务)
摩擦系数
岩土工程
数学
地质学
复合材料
雷诺数
计算机科学
湍流
数学分析
物理
冶金
财务
人工智能
经济
作者
Chuang Wu,Yinbo Wang,Feng Chen,Xinhua Long
标识
DOI:10.1177/13506501231190679
摘要
To the water lubricated bearing, its mixed-lubricated friction model is generally established based on the traditional statistical model, whose accuracy is not high due to the inaccurate characterization of surface topography. Therefore, this paper employs the fractal theory that has scale-independent characteristics and high precision to characterize the surface topography of the bearing and journal, and then establishes the fractal contact model of asperity, combining the average Reynolds equation of the film, proposes a mixed-lubricated friction model based on fractal theory. The scanning experiments of surface topography are carried out to obtain the fractal parameters and measurements of the friction coefficient are performed to verify the effectiveness of the proposed mixed-lubricated model. Subsequently, the proposed mixed-lubricated friction model is employed to analyze the effects of the number of groove, the position of groove and the fractal parameters on the lubrication and friction characteristics of the water lubricated bearing. Results indicate when the grooves are in the non-main load-carrying regions, the friction characteristics of the bearing slightly changes, and the lower surface roughness is beneficial to improve the lubrication and friction properties of the bearing.
科研通智能强力驱动
Strongly Powered by AbleSci AI