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AuthorKharmanda, Ghais
AuthorGowid, Samer
AuthorMahdi, Elsadig
AuthorShokry, Abdallah
Available date2024-03-13T09:01:26Z
Publication Date2020
Publication NameMaterials
ResourceScopus
ISSN19961944
URIhttp://dx.doi.org/10.3390/ma13020362
URIhttp://hdl.handle.net/10576/53020
AbstractAn efficient reliability algorithm is developed to transfer the system reliability problem to a single-component reliability problem, considering the uncertainty of loading cases and the material properties. The main difficulty is that femoral bone densities change after hip arthroplasty and, thus, the mechanical properties of the distinctive bone tissues and, therefore, the corresponding elasticity modulus and yield stress values change. Therefore, taking these changes into account during the hip prosthesis design process is strongly needed. As the bone possesses anisotropic behaviors, as the material properties in both radial and tangential directions in long bone (femur, tibia) are almost similar, the bone anisotropy is represented in this study by transversal isotropy. Two optimized formulations for yield stress against the elasticity modulus relationship are first developed and then integrated into an efficient reliability algorithm. Thus, a coupling between reliability and optimization, so-called reliability-based design optimization (RBDO), is introduced in order to control the reliability level. The proposed RBDO algorithm using optimum safety factors (OSF) takes into account the material uncertainties and leads to new stem dimensions. An in-depth numerical analysis on a cementless hip prosthesis is implemented to demonstrate the appropriateness of the proposed algorithm with the consideration of many different loading cases. The results show that the studied model can be effectively used when compared to previous works, which concerns the changes in both geometry and material properties.
Languageen
PublisherMDPI AG
SubjectBone material properties
Hip prosthesis
Reliability-based design optimization
Structural reliability
TitleEfficient system reliability-based design optimization study for replaced hip prosthesis using new optimized anisotropic bone formulations
TypeArticle
Issue Number2
Volume Number13
dc.accessType Open Access


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