建立全腰椎有限元接触模型
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国家自然科学基金资助项目(30970708)


Establishing finite element contact model of human L1~L5 lumbar segments
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    摘要:

    目的 应用自编软件和HyperMesh软件并结合接触理论建立全腰椎有限元模型。方法 以正常自愿者全腰椎节段螺旋CT扫描图像的基础,利用自编软件和HyperMesh软件,生成全椎体的骨性有限元模型,补充建立终板、关节突软骨、椎间盘及韧带等结构,建立全腰椎有限元分析模型。引入接触理论处理上下关节突之间的面面接触问题。结果所建模型几何外型较真实,组织结构更完整,外观表现更细腻。生理载荷下的模拟结果与体外生物力学实验结果更加吻合。结论 利用自编软件和HyperMesh软件可以提高有限元模型建立的速度和准确度,引入接触理论可提高有限元模型的可靠性和真实性。

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    Objective To establish the finite element model of L1~L5 lumbar motion segments with contact theory by self-compiled software and HyperMesh. Method Based on the spine CT continuous images of L1~L5 segments from the healthy volunteer, the three dimensional finite elements model of L1~L5 vertebrae structure was constructed applying self compiled software and HyperMesh, and added with simulating the endplates, joint cartilage intervertebral disc as well as ligament structure. The contact theory was adopted to solve the process between the high and low articular surface surface contacting. ResultsThe three dimensional finite element model with more structure integrity and good geometric similarity was obtained. The simulating results of the physical loading are matched better with the results of the vitro experiment of biomechanics. Conclusions Selfcompiled software and HyperMesh improved the speed and accuracy for building finite element model of lumbar motion segment, while the introduction of contact theory could enhance its reliability and authenticity.

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苏晋,赵文志,陈秉智,李斌,何盛为,方旭.建立全腰椎有限元接触模型[J].医用生物力学,2010,25(3):200-205

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  • 收稿日期:2009-12-11
  • 最后修改日期:2010-03-03
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