This letter presents an analytical solution to the hydrodynamic lubrication of a circular point contact sliding over a flat surface with cavitation.The solution is found by solving the Reynolds equation with Reynolds ...This letter presents an analytical solution to the hydrodynamic lubrication of a circular point contact sliding over a flat surface with cavitation.The solution is found by solving the Reynolds equation with Reynolds boundary condition for cavitation.The cavitation boundary is shown to be straight lines directed 108.4°against the sliding direction.The result is experimentally verified in the limit of large values of viscosity,sliding velocity and radius of a spherical ball.The solution raises questions about the coupling between cavitation and film rupture and can be used as an independent check on the validity of numerical solutions.展开更多
基金supported by the Swedish Foundation for Strategic Research(SSF)
文摘This letter presents an analytical solution to the hydrodynamic lubrication of a circular point contact sliding over a flat surface with cavitation.The solution is found by solving the Reynolds equation with Reynolds boundary condition for cavitation.The cavitation boundary is shown to be straight lines directed 108.4°against the sliding direction.The result is experimentally verified in the limit of large values of viscosity,sliding velocity and radius of a spherical ball.The solution raises questions about the coupling between cavitation and film rupture and can be used as an independent check on the validity of numerical solutions.
