2023
DOI: 10.3390/ma16083151
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Multi-Scale Topology Optimization of Femoral Stem Structure Subject to Stress Shielding Reduce

Abstract: Hip replacement femoral implants are made of substantial materials that all have stiffness considerably higher than that of bone, which can cause significant bone resorption secondary to stress shielding and lead to severe complications. The topology optimization design method based on the uniform distribution of material micro-structure density can form a continuous mechanical transmission route, which can better solve the problem of reducing the stress shielding effect. A multi-scale parallel topology optimi… Show more

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Cited by 3 publications
(1 citation statement)
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“…This investigation involves fixed flexion angles ranging from 8 to 12° and abduction angles ranging from 6 to 12 degrees. 33–45 The loading condition plays a significant role in assessing the performance of hip implants. However, the mechanical performance of a hip implant stem within an implanted femur bone was evaluated following ISO-7206-08 guidelines in recent literature.…”
Section: Hip Implant With Various Stem Structuresmentioning
confidence: 99%
“…This investigation involves fixed flexion angles ranging from 8 to 12° and abduction angles ranging from 6 to 12 degrees. 33–45 The loading condition plays a significant role in assessing the performance of hip implants. However, the mechanical performance of a hip implant stem within an implanted femur bone was evaluated following ISO-7206-08 guidelines in recent literature.…”
Section: Hip Implant With Various Stem Structuresmentioning
confidence: 99%