论文信息 - Two-dimensional finite difference solution for externally pressurized journal bearings of finite length☆

Two-dimensional finite difference solution for externally pressurized journal bearings of finite length☆

Abstract A two-dimensional finite difference solution was used to predict the performance of finite length externally pressurized oil-lubricated journal bearings with several supply holes. The generalized Reynolds equation was solved numerically to obtain the effects of the bearing design parameter, eccentricity ratio and speed parameter on bearing performance. Performance curves are presented for a double-feeding plane bearing compensated by orifice restrictors. The bearing load-carrying capacity, stiffness, lubricant flow rate and frictional torque due to bearing rotation increase with increase in the bearing design parameter, eccentricity ratio and speed parameter. The attitude angle increases with increase in the bearing design parameter and is generally stable at high values of the eccentricity ratio and speed parameter. Hydrodynamic and centrifugal actions are present at higher values of the eccentricity ratio and speed parameter.

[1] R. Sinhasan,et al. Static and dynamic performance characteristics of an orifice-compensated hydrostatic journal bearing , 1979 .

[2] M. G. Salvadori,et al. Numerical methods in engineering , 1955 .

[3] Bruce W. Arden,et al. Numerical algorithms: origins and applications , 1970 .

[4] O. Pinkus,et al. Theory of Hydrodynamic Lubrication , 1962 .

[5] Y. S. Ho,et al. Performance characteristics of a capillary-compensated hydrostatic journal bearing , 1979 .

[6] T. Allan. The application of finite element analysis to hydrodynamic and externally pressurised pocket bearings , 1972 .

[7] R. Sinhasan,et al. Static and Dynamic Analysis of Capillary Compensated Hydrostatic Journal Bearings by Finite Element Method , 1977 .

[8] T. F. Conry,et al. Design of Multi-Recess Hydrostatic Journal Bearings for Minimum Total Power Loss , 1974 .

[9] W. B. Rowe. Dynamic and Static Properties of Recessed Hydrostatic Journal Bearings by Small Displacement Analysis , 1980 .

[10] R. Sinhasan,et al. Load capacity and flow characteristics of a hydrostatically lubricated four-pocket journal bearing by finite element method , 1976 .

[11] R. Sinhasan,et al. Finite element analysis of orifice-compensated hydrostatic journal bearings , 1976 .

[12] K. G. Hornung,et al. Frictional Characteristics of Liquid Hydrostatic Journal Bearings , 1965 .