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人工髋臼接触力学特性的有限元分析 被引量:5

A Contact Mechanics Characteristic Analysis of Artificial Acetabulum by Finite Element Method.
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摘要 目的: 考察人工超高分子量聚乙烯髋关节臼的接触力学特性。方法: 建立人工髋臼模型,对模型进行网格划分,在接触区域建立接触对,按真实人体关节对模型进行边界条件的设定后进行有限元接触力学分析。对不同条件下(摩擦系数0~0.25,髋臼厚度6~12 mm,髋臼直径26~32 mm)的髋臼分别进行步态分析。结果: 计算结果显示压缩变形量在接触面摩擦系数增大、髋臼直径增加情况下均呈现下降趋势。接触层厚及接触面积受髋臼厚度的影响在不同尺寸处体现不同的特性,接触面积和层厚对于植入假体的稳定性及磨粒的产生有重要影响。结论: 综合考虑两者的作用效果认为7~9 mm厚的髋臼表现效果较好。 Objective To investigate the contact mechanical characteristics of artitical acetabulum made of ultra-high molecule polyethylene (UHMWPE). Methods An acetabulum model was developed and meshed with free pattern, The contact pairs between acetabulum and femur head were built and the mechanical characteristics were analyzed under different conditions by finite element method (FEM). Results The magnitude of compress deformation decreased with the increase of friction coefficient and acetabulum diameter. Long-term stability of the hip joint was affected by contact layer thickness and contact area that have different characteristics under various thicknesses of the acetabulum. Conclusion The calculations show that acetabula with 7 -9 mm thicknesses have better contact mechanical characteristics.
作者 姜海波 葛世荣
机构地区 中国矿业大学机电工程学院 中国矿业大学材料科学与工程学院
出处 《航天医学与医学工程》 CAS CSCD 北大核心 2007年第3期223-226,共4页 Space Medicine & Medical Engineering
基金 国家杰出青年科学基金项目(50225519) 国家自然科学基金重点项目(50535050) 教育部高校优秀青年教师教学科研奖励计划资助
关键词 人工关节 超高分子量聚乙烯 髋臼 接触变形 有限元分析 artifical joints ultra-high molecule polyethylene acetabulum contact deformation finite element analysis
分类号 R318.01 [医药卫生—生物医学工程]
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参考文献4

二级参考文献16

  • 1刘广建.超高分子量聚乙烯的改性、模压成型工艺及其承载能力研究:[博士学位论文].北京:中国矿业大学,2000..
  • 2Maloney WJ.Orthopaedic crossfire-larger femoral heads:a triumph of hope over reason.In opposition.J Arthroplasty,2003,18(3 Suppl1 ):85-87.
  • 3Gross AE,Dust WN.Acute polyethylene fracture in an uncemented acetabular cup.Can J Surg,1997,40:310-312.
  • 4Kurtz SM,Rimnac CM,Santner TJ,et al.Exponential model for the tensile true stress-strain behavior of as-irradiated and oxidatively degraded ultra high molecular weight polyethylene.J Orthop Res,1996,14:755-761.
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  • 8Nadzadi ME,Pedersen DR,Callaghan JJ,et al.Effects of acetabular component orientation on dislocation propensity for small-head-size total hip arthroplasty.Clin Biomech,2002,17:32-40.
  • 9Kurtz SM,Edidin AA,Bartel DL.The role of backside polishing,cup angle,and polyethylene thickness on the contact stresses in metal-backed acetabular components.J Biomech,1997,30:639-642.
  • 10Livermore J,Ilstrup D,Morrey B.Effect on femoral head size on wear of the polyethylene acetabular component.J Bone Joint Surg(Am),1990,72:518-528.

共引文献32

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航天医学与医学工程
2007年 第3期

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