The Application of 3D Surface Metrology in Characterization of Femoral Stem Wear

X. Jiang, L. Blunt, L. Brown, Hong-yu Zhang
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引用次数: 1

Abstract

The significance of three dimensional(3D)surface metrology in engineering is firstly discussed,based on the recognition of the limitation of two dimensional(2D)surface metrology that most researchers in academia and industry have been utilizing.Then a detailed description of modern 3D surface metrology instruments,i.e.contacting stylus,non-contacting optical interferometer and atomic force microscope,is given.Subsequently,the development of 3D surface characterization technique which concentrates mainly on 3D surface parameters,especially the famous "Birmingham 14 Parameters",is introduced.Finally,a typical case study on the application of 3D surface metrology in characterization of femoral stem wear is proposed to further advocate the popularization of 3D surface metrology in biomedical engineering,with the result showing that matt femoral stems wear against bone cement by an abrasive mechanism whilst fretting wear dominates the wear mechanism between polished femoral stems and bone cement.
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三维表面测量在股骨干磨损表征中的应用
在认识到目前学术界和产业界普遍采用的二维曲面测量方法存在局限性的基础上,首先讨论了三维曲面测量在工程中的意义。然后详细介绍了现代三维曲面测量仪器,即。给出了接触式触针、非接触式光学干涉仪和原子力显微镜。随后介绍了三维表面表征技术的发展,主要集中在三维表面参数,特别是著名的“伯明翰14参数”。最后,为进一步倡导三维表面测量在生物医学工程中的应用,提出了三维表面测量在股骨柄磨损表征中的典型案例研究,结果表明,磨砂股骨柄对骨水泥的磨损以磨粒机制为主,而磨砂股骨柄与骨水泥的磨损机制以微动磨损为主。
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来源期刊
应用基础与工程科学学报
应用基础与工程科学学报 Engineering-Engineering (all)
CiteScore
1.60
自引率
0.00%
发文量
2784
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