基于有限元模型的下肢长骨动态试验的仿真研究
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天津市应用基础及前沿技术研究计划项目(10JCYBJC25900)


Simulation of dynamic tests on long bones of lower limbs based on finite element model
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    目的 研究在动态载荷下下肢长骨的损伤极限。方法 基于中国人体下肢有限元模型,分别对股骨、胫骨、大腿和小腿进行动态三点弯曲仿真,并借助尸体试验验证该模型的有效性。结果 仿真所得撞锤的撞击力-位移曲线走势与尸体试验结的基本吻合。裸股骨、裸胫骨、大腿和小腿失效时的撞击力分别为4.29、3.94、4.81和4.086 kN,位移分别为17.78、34.00、52.10和47.06 mm,与尸体试验结果也较为相符。结论 本研究验证了模型的有效性,为后续对膝关节以及对整个下肢模型的验证奠定基础,为碰撞事故中对行人进行保护提供了科学的理论依据。

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    Objective To study the failure tolerance in long bones of lower limbs under dynamic loads. Methods Based on the finite element (FE) model of lower limb for Chinese people, the dynamic three-point bending test on the femur, tibia, leg and thigh was conducted , and the FE model was validated against the cadaveric experiment. Results The force-displacement curves between FE simulation and cadaveric experimental results for bending tests were correlated. The contact forces on femur, tibia, thigh and leg with failure tolerance were 4.29, 3.94, 4.81 and 4.086 kN, respectively,and the displacements from the impactor were 17.78, 34, 52.1, and 47.06 mm, respectively. The simulation results were correlated well with those in dynamic cadaveric experiments. Conclusions This study validated the effectiveness of the FE model, which would lay a good foundation for the further research on validation of FE model of knee joint and whole lower limb, and provide the theoretical references for the protection of pedestrians in crashes.

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李海岩,翟广凤,赵玮,贺丽娟.基于有限元模型的下肢长骨动态试验的仿真研究[J].医用生物力学,2013,28(1):31-35

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  • 收稿日期:2012-04-25
  • 最后修改日期:2012-05-29
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