Friction of rubber sliding against ceramics part II - Influence of oil and oil-water lubrication

The static friction coefficient caused from sliding of rubber specimens against ceramic surfaces lubricated by oil and oil diluted by water was investigated on test specimens with V-grooves at 50, 100 and 150 N normal load. For oil lubricated ceramic, the friction coefficient decreased with increasing height of the grooves. The decrease may be from the well adherence of oil on the rubber surface and a film formation. A mixture of oil and water displayed values of friction much lower than that observed for oil lubricated condition. Friction coefficient decreased as the height of the grooves increased and consequently the capacity of the groove increased to restore lubricant fluid and feed once again into the contact area as load decreases.