The Effect of Couple Stresses in Squeeze Film Poro-elastic Bearings with Special Reference to Synovial Joints

Abstract

In this paper, a theoretical study of squeeze film poro-elastic bearings with Stokes' couple stress fluid as lubricant is made. The analysis explains the working of poro-elastic bearings in general and describes the lubrication mechanism of synovial joints in particular. Compact closed form expressions for the fluid film pressure, load capacity, and approaching time as a function of film thickness during normal articulation of joints are obtained. It is observed that the bearings with couple stress fluid as lubricant provide significant load carrying capacity and ensure a delayed time of approach compared with viscous lubricants. The influence of elasticity is to increase the load capacity and yield a longer squeeze film time. A decrease in permeability of the bearing surface enhances the load capacity as well as the response time. This results in the efficient lubrication and proper functioning of synovial joints.