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滑动轴承两种油膜边界条件的比较 被引量:17

A Comparison between Two Boundary Conditions of Journal Bearings
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摘要 本文对滑动轴承计算中两种常用的油膜边界条件进行了比较 ,一种是雷诺边界条件 ,另一种即质量守恒边界条件。对于前者 ,常采用负压力归零法进行计算 ,对于后者 ,大多采用Elrod算法。本文通过改变Elrod算法中的变量θ的定义 ,对Elrod算法进行改进 ,建立一新的通用方程 ,可自动确定动态边界。并在稳态工况下 ,将两种边界条件的计算结果与实验数据进行比较 ,发现根据质量守恒边界条件采用本文新改进的算法计算所得结果与实验数据十分吻合。同时 ,计算结果表明 ,空穴并不总是降低轴承的承载力 ,在稳态工况下 ,当空穴压力为较大的负压力时 。 A comparison between two boundary conditions, Reynolds boundary condition and mass conserving boundary condition , which are usually used in the numerical calculation of journal bearings is carried out In this paper, based on mass conserving boundary condition, a new cavitation algorithm is brought out to constitute a universal equation to describe oil film pressure field which can determine moving boundary automatically By comparing the numerical results of different boundary conditions and algorithms with experimental data, it is found that film pressure predicted by the new algorithm has good agreement with experimental data At the same time, the calculating results indicate that the cavitation does not always have a negative effect on the load carrying capacity of bearings For steady state, the low pressure in the cavitated area will increase the load carrying capacity of bearings
作者 苏荭 王小静 张直明
机构地区 上海大学机电学院
出处 《润滑与密封》 CAS CSCD 北大核心 2002年第5期3-4,2,共3页 Lubrication Engineering
基金 国家 973项目(G19980 2 0 317- 4 2 ) 西安交通大学润滑理论及轴承转子系统开放实验室基金项目资助
关键词 空穴 油膜边界条件 滑动轴承 Cavitation Boundary Condition Journal Bearing
分类号 TH133.31 [机械工程—机械制造及自动化] TH117.2 [机械工程—机械设计及理论]
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参考文献8

  • 1[1]Olsson K O, Cavitation in Dynamically Loaded Bearing, Chalmers University of Technology,Goteborg,1965.
  • 2[2]Heshmat Hooshang, The Mechanism of Cavitation in Hydrodynamic Lub rication, STLE Trans. Tribology,1991,34(2):177~186.
  • 3[3]Jakobsson B and Floberg L, The Finite Journal Bearing Cons id ering Vaporization, Chalmers Tekniska Hoegskolas Handlingar ,1957,190:1~116.
  • 4[4]Brewe D E, Theoretical Modeling of The Vapor Cavitation in Dynamically Loaded Journal Bearings, ASME Trans. J. of Trib. , 1986,108:628~638.
  • 5[5]Pan C H T, Dynamic Analysis of Rupture in Thin Fluid Films . 1-A Noni nertial Theory, ASME Journal of Lubrication of Technology ,1983,105: 96~104.
  • 6[6]Elrod H G, and Adams M L, ‘A Computer Program for Cavita tion and Starvat ion Problems', Cavitation and Related Phenomena in Lubrication, Mechanical Engin eering Publications, New York,1974,37~41.
  • 7[7]Elrod H G, A Cavitation Algorithm, ASME Trans. J. of Lubri. Tech.,1981,103(3):350~354.
  • 8[9]Dowson D and Taylor C M, Cavitation in Bearings, Annual Rev iews of Fluid Mechanics,1979,11:35~66.

同被引文献122

引证文献17

二级引证文献113

润滑与密封
2002年 第5期

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