摘要
Reynolds方程的求解是一个非稳定非线性的动态边界问题。通过对工程上常采用边界条件的分析与比较,提出滑动轴承以油膜切向的速度分布函数和压力分布函数确定油膜运动的动态边界条件,则有着极为重要的实际意义;并给出了相应地速度分布函数、压力分布函数和满足附着边界压力条件的动态边界方程。
Solving Reynolds equation is a dynamic boundary condition problem unstable and nonlinear. Oil -film tangential Speed distributed function and pressure distributed function of sliding bearing are used for de-termining dynamic boundary conditions of oil - film motion by analyzing and comparing with common boundary condition used in engineering projects, which has a practical role in engineering. Meanwhile relevant speed distributed function, pressure distributed function and dynamic boundary equation met the adhesive pressure boundary condition are given in this paper.
出处
《黑龙江电力》
CAS
2004年第5期346-349,351,共5页
Heilongjiang Electric Power
关键词
滑动轴承
速度分布函数
压力分布函数
动态边界方程
油膜
<Keyword>sliding bearing
speed distributed function
pressure distributed function
dynamic boundary e-quation
oil - film