This study aims to model the suitability of hip implant materials according to age and patient characteristics, focusing on a comprehensive evaluation of the materials used in hip implants. The increasing prevalence of hip-related disorders due to factors such as aging, reduced physical activity, and weight issues has intensified the demand for hip implants. The primary objective of this study is to conduct a comparative analysis of mechanically and biocompatibility-tested materials to identify the most suitable material for enhancing patients' quality of life while maintaining cost-effectiveness. The study evaluates the appropriateness of materials such as ceramics, stainless steel, chrome-cobalt alloys, titanium, and polyethylene for hip implants, considering their mechanical properties, durability, corrosion resistance, and biocompatibility through extensive laboratory testing. The lack of detailed studies specific to hip implants in the existing literature underscores the contribution of this research to the field. Utilizing models derived from computed tomography images and designed with Solidworks 3D modeling software, finite element analysis was conducted on the implants. The findings will be compared with existing literature, and an assessment report will be prepared. The development of a personalized and cost-effective implant with optimal characteristics is crucial for broad accessibility. Determining the most suitable material for implant durability and longevity is a primary goal. Additionally, selecting materials tailored to the patient's age, weight, physical activity level, and budget will contribute to the creation of customized hip implants. The results of this study will elucidate the advantages and disadvantages of different materials used in hip implants, providing valuable insights for material selection and application in the literature. The findings will serve as a foundational basis for future research in the field of hip implants, guiding informed decision-making in material selection for surgeons, engineers, and patients alike. The ultimate aim is to contribute to our nation by fostering indigenous implant research and implementation through collaborative efforts and industry support.