Development of a carbon-carbon hip prosthesis.

P Christel, A Meunier, S Leclercq, P Bouquet, B Buttazzoni
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Abstract

This article deals with the use of carbon-fiber-reinforced-carbon materials for the manufacture of hip prosthesis stems. It considers the manufacturing process of carbon-carbon (C-C) composites made of carbon fibers infiltrated either with dense pyrolytic carbon or silicon carbide (SiC) through chemical vapor infiltration. The chemicophysical properties of these composites are examined according to their structures. The long-term response (2 years) of cortical bone to various types of carbon-carbon was evaluated mainly for bone contact and ingrowth. Carbon-carbon coated with calcium phosphate was found to speed up the bone formation as compared to pyrolytic carbon or SiC coatings. The low modulus of elasticity of the C-C materials could be responsible for quicker bone contact as compared to a much stiffer material like sintered aluminum oxide. The biomechanical performance of C-C hip stems was assessed through (a) implantations into cadaver femurs, (b) fatigue testing, and (c) finite element analysis. These tests showed: (a) a better stress transfer as compared to a metal prosthesis having the same design, (b) no fatigue damage, (c) a computerized stem stress distribution in accordance with the fractures obtained during static mechanical testing.

碳-碳髋关节假体的发展。
本文讨论了碳纤维增强碳材料在人工髋关节系统制造中的应用。它考虑了碳纤维通过化学蒸汽渗透致密热解碳或碳化硅(SiC)制成的碳-碳(C-C)复合材料的制造过程。根据这些复合材料的结构对其化学物理性能进行了检测。主要通过骨接触和长入来评估皮质骨对不同类型碳-碳的长期反应(2年)。与热解碳或碳化硅涂层相比,用磷酸钙涂层的碳-碳被发现能加速骨的形成。与烧结氧化铝等更硬的材料相比,碳碳材料的低弹性模量可能导致骨骼接触更快。通过(a)植入尸体股骨,(b)疲劳测试和(c)有限元分析评估c - c髋关节干的生物力学性能。这些试验表明:(a)与具有相同设计的金属假体相比,具有更好的应力传递;(b)无疲劳损伤;(c)与静态力学试验中获得的骨折相一致的计算机控制的杆应力分布。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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