髋关节假体陶瓷基复合材料在严重摆动期微分离情况下的长期磨损。

Long-term wear of ceramic matrix composite materials for hip prostheses under severe swing phase microseparation.

作者信息

Stewart Todd D, Tipper Joanne L, Insley Gerard, Streicher Robert M, Ingham Eileen, Fisher John

机构信息

School of Mechanical Engineering, The University of Leeds, LS2 9JT, United Kingdom.

出版信息

J Biomed Mater Res B Appl Biomater. 2003 Aug 15;66(2):567-73. doi: 10.1002/jbm.b.10035.

DOI:10.1002/jbm.b.10035

PMID:12861609

Abstract

The purpose of this study was to evaluate the long-term wear performance of alumina matrix composite (AMC) heads against alumina matrix composite inserts and alumina matrix composite heads against alumina (Al) inserts with the use of a hip-joint simulator incorporating severe swing phase joint microseparation. The wear of AMC on Al produced an average wear rate of 0.61 mm3/million cycles over the 5-million-cycle test duration. The wear of AMC on AMC produced an average wear rate of 0.16 mm3/million cycles over the 5-million-cycle test duration. Both the AMC on alumina and AMC on AMC produced significantly lower wear than previously tested HIPed alumina, where an average wear rate of 1.84 mm3/million cycles was reported over 5 million cycles. The wear mechanisms and wear debris of AMC on AMC and AMC on Al were similar to those observed in previous alumina retrieval studies with stripe wear caused by intragranular fracture and wear debris consisting of predominantly uniform 10-20-nm-sized particles and a few irregular particles up to 3 microm in size.

摘要

本研究的目的是使用包含严重摆动期关节微分离的髋关节模拟器，评估氧化铝基复合材料（AMC）股骨头与氧化铝基复合材料髋臼衬垫以及氧化铝基复合材料股骨头与氧化铝（Al）髋臼衬垫的长期磨损性能。在为期500万次循环的测试中，AMC在Al上的磨损产生的平均磨损率为0.61立方毫米/百万次循环。在为期500万次循环的测试中，AMC在AMC上的磨损产生的平均磨损率为0.16立方毫米/百万次循环。AMC在氧化铝上以及AMC在AMC上产生的磨损均显著低于先前测试的热等静压氧化铝，后者在500万次循环中的平均磨损率为1.84立方毫米/百万次循环。AMC在AMC上以及AMC在Al上的磨损机制和磨损碎屑与先前氧化铝取出研究中观察到的相似，磨损条纹由晶内断裂引起，磨损碎屑主要由尺寸均匀的10 - 20纳米颗粒和一些尺寸达3微米的不规则颗粒组成。

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髋关节假体陶瓷基复合材料在严重摆动期微分离情况下的长期磨损。

Long-term wear of ceramic matrix composite materials for hip prostheses under severe swing phase microseparation.

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