@article { author = {Kamel, H.}, title = {MODELING AND SIMULATION OF A HIP PROSTHESIS IMPLANTATION}, journal = {The International Conference on Applied Mechanics and Mechanical Engineering}, volume = {18}, number = {18th International Conference on Applied Mechanics and Mechanical Engineering.}, pages = {1-12}, year = {2018}, publisher = {Military Technical College}, issn = {2636-4352}, eissn = {2636-4360}, doi = {10.21608/amme.2018.35024}, abstract = {ABSTRACTHip replacement implants are currently increasing worldwide. However, the numberof failing implants is also relatively high. In this paper, the design of a prosthesis hipjoint is analyzed using finite element analysis. A FE model was developed inaccordance with the ISO standard and was verified using ANSYS and SIEMENSNX packages. Furthermore, FE results were verified using published experimentalresults. The verified FE model was then used to simulate the joint under dynamicloading taking into account the effect of level of activity on scaling the loads up. Twomaterial types: TI-6AL-4V and Cobalt–chromium alloys were used and the resultsshowed that TI-6AL-4V alloy proved to have more durability under dynamic loading.In addition, the results showed that the level and type of life activates have anobvious and a pronounced effect on the service life of the prosthesis joint.}, keywords = {hip implant,hip prosthesis,Finite Element}, url = {https://amme.journals.ekb.eg/article_35024.html}, eprint = {https://amme.journals.ekb.eg/article_35024_0d3b4b2a3ac1e5787cd8949240f0a1e7.pdf} }