D. Jalali-vahid et al., Prediction of lubricating film thickness in a ball-in-socket model with a soft lining representing human natural and artificial hip joints, P I MEC E J, 215(J4), 2001, pp. 363-372
Citations number
27
Categorie Soggetti
Mechanical Engineering
Journal title
PROCEEDINGS OF THE INSTITUTION OF MECHANICAL ENGINEERS PART J-JOURNAL OF ENGINEERING TRIBOLOGY
A simple ball-in-socket model was adopted in this study to analyse the lubr
ication problem of both natural hip joints and their artificial replacement
s. A compliant layered bearing surface was considered to represent articula
r cartilage as found in the natural synovial joint and also in the artifici
al hip replacement where an ultra-high molecular weight polyethylene (UHMWP
E) acetabular cup was employed. The cup was assumed to be stationary while
the ball was assumed to rotate at a steady angular velocity and under a con
stant load. A successful numerical method developed in a previous study by
the present authors was used to solve the Reynolds equation in spherical co
ordinates, simultaneously in conjunction with the corresponding elasticity
equation based upon the constrained column model. Numerical solutions thus
obtained enabled general formulae to be fitted for both the minimum film th
ickness and the central film thickness, based upon the prediction from the
equivalent ball-on-plane model and the half-contact angle. These formulae w
ere then applied to predict the lubricating film thickness in both natural
hip joints and their artificial replacements.