Abstract
The present paper squarely aims to analyze the squeezing velocity of a hydrodynamic lubrication used for symmetric roller bearings. Hydrodynamic compressible fluid film lubrication of cylindrical rollers is here considered under the influence of non Newtonian power law lubricants with squeezing velocity and cavitations. The changes that show up in lubrication consistency due to pressure, density and temperature are shown via ures and tables. Further, pressure, density, temperature, load, traction and coefficient of traction for various consistency index n and normal speeds are calculated and compared with the previous results. Those results are united with the previous findings.
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