全复合材料髋关节表面置换假体疲劳行为的生物力学分析

IF 0.5 Q4 ENGINEERING, MULTIDISCIPLINARY

Journal of the Serbian Society for Computational Mechanics Pub Date : 2018-12-31 DOI:10.24874/JSSCM.2018.12.02.06

K. Chergui, Hacene Ameddah, H. Mazouz

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引用次数: 2

摘要

髋关节表面置换假体因人类行走的不同位置而受到不同的应力，从而产生随时间变化的动态应力，导致植入材料疲劳失效。研究假体材料的疲劳性能，确保其长寿命具有重要意义。我们提出了一种由碳纤维和聚酰胺12树脂组成的新型复合材料CF/PA12，其生物相容性已在实验室中得到证实。在这项研究中，我们研究了完全由新型CF/PA12复合材料制成的髋关节表面置换假体在不同步态周期位置的静态和动态行为。疲劳行为将通过使用与Abaqus有限元代码兼容的商业SolidWorks软件进行有限元分析来推断。在2、13、19、50和63%的不同步态周期百分比下，考虑正常步行和爬楼梯负荷，进行静态和动态分析。结果表明，完全由新型CF/PA12复合材料制成的髋关节表面置换假体不会疲劳，因此不会失效。

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BIOMECHANICAL ANALYSIS OF FATIGUE BEHAVIOR OF A FULLY COMPOSITE-BASED DESIGNED HIP RESURFACING PROSTHESIS

The Hip resurfacing prosthesis is subjected to different stresses resulting from the different positions of the human walk, thereby generating dynamic stresses that vary with time, leading the implant material to fatigue failure. It is important to study the fatigue behavior of the prosthesis material and to ensure its long lifetime. We proposed a new composite material named CF/PA12 composed of carbon fibers with a polyamide 12 resin, whose biocompatibility had been demonstrated in laboratories. In this study, we investigated the static and dynamic behavior at different Gait cycle positions of a Hip resurfacing prosthesis entirely made of new CF/PA12 composite. A fatigue behavior will be deducted by a Finite Element Analysis using the commercial SolidWorks software compatible with the Abaqus finite element code. Static and dynamic analysis were conducted considering normal walking and climbing stairs loading at different Gait cycle percentages of 2, 13, 19, 50 and 63%. The results obtained showed that Hip resurfacing prosthesis fully made of new CF/PA12 composite was very far from fatigue and therefore from failure.

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来源期刊

Journal of the Serbian Society for Computational Mechanics ENGINEERING, MULTIDISCIPLINARY-

CiteScore

0.90

自引率

0.00%

发文量