Abstract

A mass-conservative algorithm that implements the Jakobsson–Floberg–Olsson cavitation theory is used to predict the performances of seal-like structures and thrust bearings with a dimpled surface texture. The results of a series of simulations for load-carrying capacity, film thickness, dimple depth, dimple density, cavitation pressure, leakage, and friction force are presented, and the relationship between these performance parameters is studied. It is shown that, under the conditions simulated, surface roughness can improve the load-carrying capacity, but its effect is limited.

Issue Section:
Hydrodynamic Lubrication
Keywords:
surface texture, mechanical seals, thrust bearings, mass-conservative algorithm, cavitation, roughness effects, cavitation, density, force, friction, liquid films, machine bearings, sealing materials, surface roughness, surface texture
Topics:
Cavitation, Film thickness, Load bearing capacity, Pressure, Surface roughness, Thrust bearings, Leakage, Friction, Density
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