飞行员机动飞行过程中颈椎动力学响应仿真及损伤预测
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国家重点研发计划(2016YFC0802807),河南省高等学校重点科研项目(21A130004)


Dynamic Response Simulation and Damage Prediction of Pilot Cervical Vertebra During Maneuver Flight
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    摘要:

    目的 采用有限元方法针对典型机动飞行动作过程中飞行员颈椎动力学响应进行仿真,并采用冲击损伤及疲劳损伤模型对飞行员颈椎组织损伤失效进行分析预测。方法 构建具有较高生物仿真度的颈部有限元模型,结合实例对模型的有效性进行验证。加载离心训练机不同模式下的过载曲线进行数值仿真,并采用通用颈椎损伤判定准则和生物组织疲劳损伤模型对组织的冲击损伤及疲劳损伤进行预测分析。结果 机动飞行动作下,过载冲击产生的椎骨、椎间盘最大应力分别为66.53、58.63 MPa,根据Nij损伤准则计算得到最大Nij为0.096,低于损伤耐受阈值1,不会对颈椎骨组织造成直接的急性损伤;引用生物组织疲劳损伤模型得知,松质骨在不间断重复加载超过40 000次的情况下发生疲劳失效破坏,考虑到飞行员有限的飞行生涯,椎骨骨组织不会因疲劳损伤积累而导致破坏。结论 研究结果在一定程度上有助于制定飞行员训练和飞行方案,也为其防护装备开发提供数据支持。

    Abstract:

    Objective To simulate dynamic response of cervical spine of the pilot during typical maneuver flight movements using finite element method, as well as make analysis and prediction on damage failure of the pilot neck during flight by impact injury and fatigue injury model of biological tissues.Methods A geometrically accurate finite element model of the neck was constructed, and validity of the model was verified by relevant examples. Then, the acceleration curves of centrifugal trainer under different modes were loaded for numerical simulation, and impact injury and fatigue injury of tissues were predicted by using the universal cervical injury criterion and the fatigue damage model of biological tissues.Results The maximum stress of the vertebrae and intervertebral disc caused by overload impact was 66.53 MPa and 58.63 MPa respectively during typical maneuver flight. According to the Nij injury criteria, the maximum Nij was 0.096, which was lower than the injury tolerance threshold of 1, and would not cause direct acute injury to cervical tissues. Based on fatigue damage model of biological tissues, it was found that cancellous bone suffered fatigue failure under the condition of uninterrupted repeated loading for more than 40 000 times. Considering the limited flight career of the pilot, the vertebral tissues would not be fractured due to the accumulation of fatigue damage.Conclusions To a certain extent, the results can contribute to formulating pilot training and flight plans, and also provide data support for the development of its protective equipment.

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王家涛,包佳仪,周前祥,郭攀,张景飞.飞行员机动飞行过程中颈椎动力学响应仿真及损伤预测[J].医用生物力学,2022,37(2):262-267

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  • 收稿日期:2021-03-03
  • 最后修改日期:2021-06-07
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  • 在线发布日期: 2022-04-27
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