1Research Scholar, Department of Mechanical Engineering, NIT, Raipur, India. Email: siddharthsantosh7@gmail.com
2Professor, Department of Mechanical Engineering, NIT, Raipur, India. Email: nkjain.me@nitrr.ac.in
*Corresponding Author: Siddharth Tiwari, Research Scholar, Department of Mechanical Engineering, NIT, Raipur, India. Email: siddharthsantosh7@gmail.com
Aseptic loosening, stress shielding, and wear are some of the dominant issues that would be attempted to resolve in this research work in designing and optimizing femoral hip replacement devices by making use of finite element analysis. This research work will emphasize important aspects in designing the devices that include the size of the head area and taper angle, which were optimized for enhancing their performance. Titanium alloys show superior biocompatibility compared to other alloys. Of these alloys, Ti-6Al-4V provides superior mechanical properties and anticorrosion properties. Simulation tests conducted in this work made use of finite element analysis for studying the stresses and deformations in the devices. This helped in achieving deformations of 0.405mm and a value of 246.38 MPa for stresses that provide structural and efficient use of materials in performance criteria restricted within acceptable limits.
Keywords: Hip Arthroplasty; Femur Head; Finite Element Analysis; Topology Optimization
How to cite this article: Tiwari S, Jain NK.., Topology Optimization Customized Femoral Hip Implant...Int J Drug Deliv Technol. 2026; 16(11s): 776-781; DOI: 10.25258/ijddt.16.11s.78
Source of support: Nil.
Conflict of interest: None