On the numerical solution of the dynamically loaded hydrodynamic lubrication of the point contact problem.

摘要

The transient analysis of the hydrodynamic lubrication of a point-contact is presented. A body-fitted coordinate system is introduced to transform the physical domain, enabling the use of the Newton-Raphson method for determining pressures and locating the cavitation boundary, where the Reynolds boundary condition is specified. In order to obtain the transient solution, an explicit Euler method is used to effect a time march. Computations were performed on the CRAY-XMP. The transient dynamic load is a sinusoidal function of time with frequency, fractional loading, and mean load as parameters.; Results include the variation of the minimum film thickness and phase-lag with time as functions of excitation frequency. The results are compared with the analytic solution to the transient step bearing problem with the same dynamic loading function. The similarities of the results suggest an approximate model of the point contact minimum film thickness solution.