Effect of Geometrical Parameters on the Performance of Longitudinal Functionally Graded Femoral Prostheses
Author | Oshkour, Azim Ataollahi |
Author | Talebi, Hossein |
Author | Seyed Shirazi, Seyed Farid |
Author | Yau, Yat Huang |
Author | Tarlochan, Faris |
Author | Abu Osman, Noor Azuan |
Available date | 2023-01-26T07:03:28Z |
Publication Date | 2015 |
Publication Name | Artificial Organs |
Resource | Scopus |
Abstract | This study aimed to assess the performance of different longitudinal functionally graded femoral prostheses. This study was also designed to develop an appropriate prosthetic geometric design for longitudinal functionally graded materials. Three-dimensional models of the femur and prostheses were developed and analyzed. The elastic modulus of these prostheses in the sagittal plane was adjusted along a gradient direction from the distal end to the proximal end. Furthermore, these prostheses were composed of titanium alloy and hydroxyapatite. Results revealed that strain energy, interface stress, and developed stress in the femoral prosthesis and the bone were influenced by prosthetic geometry and gradient index. In all of the prostheses with different geometries, strain energy increased as gradient index increased. Interface stress and developed stress decreased. The minimum principal stress and the maximum principal stress of the bone slightly increased as gradient index increased. Hence, the combination of the femoral prosthetic geometry and functionally graded materials can be employed to decrease stress shielding. Such a combination can also be utilized to achieve equilibrium in terms of the stress applied on the implanted femur constituents; thus, the lifespan of total hip replacement can be prolonged. 2014 International Center for Artificial Organs and Transplantation and Wiley Periodicals, Inc. |
Language | en |
Subject | Finite element analysis Interface stress Maximum principal stress Minimum principal stress Strain energy |
Type | Article |
Pagination | 156-164 |
Issue Number | 2 |
Volume Number | 39 |
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Mechanical & Industrial Engineering [1367 items ]