Abstract
It is observed that the non-slip boundary conditions in the classical lubrication theory are not valid for lubricant with a limiting shear stress. By determining the position of the maximum shear stress and changing velocity boundary condition to stress condition, slip lubrication equations are deduced. With numerical solution of the equations, the location and scale of the boundary slip are analyzed. Finally, after the influences of the slip on the lubrication properties are discussed, results show that a significant decrease of the load carrying capacity causes slip lubrication failure.
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