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Finite Element Analysis of Porous Titanium Alloy Hip Stem to Evaluate the Biomechanical Performance During Walking and Stair Climbing 被引量:1
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作者 Sami Emad Alkhatib Hassan Mehboob Faris Tarlochan 《Journal of Bionic Engineering》 SCIE EI CSCD 2019年第6期1103-1115,共13页
Despite the success of cementless hip stem,stress shielding still presents a serious problem leading to bone resorption.Stems incorporating porous cellular structures represent a promising solution.Therefore,this stud... Despite the success of cementless hip stem,stress shielding still presents a serious problem leading to bone resorption.Stems incorporating porous cellular structures represent a promising solution.Therefore,this study validates the finite element models of titanium(Ti)alloy(Ti-6Al-4V)porous stem and effective porous stems.Several effective porous stems with strut thicknesses 0.33 mm-1.25 mm(18%-90%porosity)under different loading conditions were analyzed.The results of finite element models revealed that changing the load type and porosity affect stress shielding.Climbing loads yield the maximum stress levels while walking loads result in the lowest stresses in the stems.Furthermore,the point load results in the maximum stress shielding and micromotions(-19% to 18%,40μm to 703μm),as compared to walking(-17.5% to 3%,35μm to 242μm)and climbing loads(-7% to 1.6%,30μm to 221 μm).Finally,effective porous stems of strut thickness 0.87 mm exhibit the lowest stress shielding signals(<5%)under all loading conditions. 展开更多
关键词 porous cellular microstructures porous hip stems physiological loads finite element analysis stress shielding
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