Affiliation:
1. Materials Engineering Department, Faculty of Engineering Zagazig University Zagazig Egypt
2. Mechanical Design Department, Faculty of Engineering Helwan University Cairo Egypt
Abstract
AbstractThe hip joint is subjected to different loads, leading to hip stem failure from the crack nucleation to the final implant failure. The main objective of the present work is to assess hip stem damage due to pelvic positioning and femur movement. The three‐dimensional finite element analysis (3D FEA) was created to simulate the artificial hip joint subjected to static or cyclic loading. The fatigue crack growth rate in the hip stem was investigated based on the extended finite element method (XFEM) with the cycle fatigue approach. The femoral stem loosening during adduction and abduction movements, which may have occurred, was considered. The numerical results showed that the von Mises stress value increases as the loosening distance increases, which appears with the decrease of the cup positioning angle. Furthermore, the pelvic positioning does not affect the crack initiation site, while the loosening and femur movement affect the crack initiation site. On the other hand, the fatigue crack growth rate was affected by pelvic positioning, loosening, and femur movement.
Subject
Mechanical Engineering,Mechanics of Materials,General Materials Science
Reference56 articles.
1. Predicting the cost-effectiveness of total hip and knee replacement
2. Failure of an uncemented acetabular prosthesis – a case study
3. AffatatoS.Perspectives in total hip arthroplasty: advances in biomaterials and their tribological interactions2014.http://public.ebookcentral.proquest.com/choice/publicfullrecord.aspx?p=1685245
4. Strength of the Cement-Bone Interface