Artificial Hip Prostheses Design and Its Evaluation by Using Ansys Under Static Loading Condition

Total hip replacement (THR) is one of the most common procedures adopted to maintain the proper functionality of human anatomy due to rapture, sudden impact, osteoporosis, arthritis, inflammatory bones, etc. Biomaterials are indispensable parameters to be looked after before CAD designing prostheses or implants. The hip prostheses should be cost-effective, readily available, light in weight, and good in longevity and strength. This research paper explores the possibility of different biomaterials that qualify as hip prostheses materials. This paper emphasizes developing a synergistic approach toward finite element analysis. The computational design of the proposed hip implant is analyzed by applying different biomaterials such as Ti-based alloys, cobalt and its alloys, and ultrahigh polyurethane. The results show the von Mises stress pattern where Ti- and Zr-based biomaterials show higher load bearing ability as compared to other materials.