1. Optimizing mechanical behavior of middle ear prosthesis using finite element method with material degradation FGM in three functions.
- Author
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Khatir, O., Fekih, S. M., Sahli, A., Boudjemaa, I., Benkhettou, A., Salem, M., and Bouiadjra, B. Bachir
- Subjects
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FUNCTIONALLY gradient materials , *MIDDLE ear , *FINITE element method , *LOGARITHMIC functions , *BIOMEDICAL materials - Abstract
Advancements in technology have revolutionized healthcare, with notable impacts on auditory health. This study introduces a novel approach aimed at optimizing materials for middle ear prostheses to enhance auditory performance. We developed a finite element (FE) model of the ear incorporating a pure titanium TORP prosthesis, validated against experimental data. Subsequently, we applied Functionally Graded Materials (FGM) methodology, utilizing linear, exponential, and logarithmic degradation functions to modify prosthesis materials. Biocompatible materials suitable for auditory prostheses, including Stainless Steel, titanium, and Hydroxyapatite, were investigated. Our findings indicate that combinations such as Stainless Steel with titanium and Hydroxyapatite offer improved outcomes compared to pure titanium and Hydroxyapatite ceramic, in terms of both displacement and stress. Additionally, personalized prostheses tailored to individual patient needs are feasible, underscoring the potential for further advancements in auditory healthcare. [ABSTRACT FROM AUTHOR]
- Published
- 2025
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