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首页> 美国卫生研究院文献>Annals of Advances in Automotive Medicine / Annual Scientific Conference >Bilateral Carotid Artery Injury Response in Side Impact Using a Vessel Model Integrated with a Human Body Model
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Bilateral Carotid Artery Injury Response in Side Impact Using a Vessel Model Integrated with a Human Body Model

机译:使用集成了人体模型的血管模型对侧面碰撞中的双侧颈动脉损伤反应

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In a far-side crash configuration, the occupant can experience severe excursion from the seat space. Given this challenge, there are research efforts focused on alternate restraints, such as four-point belts. A potential implication of this geometry would be interaction of the belt with the occupant’s neck. This study examines the response of the carotid arteries using a Finite Element Model (FEM) in a far-side crash configuration with a reversed three-point restraint. A FEM of the carotid artery and neck fascia was developed and integrated with the Total Human Model for Safety (THUMS) version 1.44. This model was subjected to four test conditions simulating far-side crashes. Load conditions included a low velocity impact of approximately 4 m/s and a higher velocity impact of approximately 10 m/s. For each velocity, the model was restrained with a belt placed low on the neck and a belt placed higher on the neck. Strain data in each element of the carotid arteries was analyzed. The overall response of the vessel was examined to determine locations of high strain values. Low belt placement resulted in more head excursion, stretching the carotid on the non-struck side. High belt placement resulted in compression of the artery on the struck side due to direct loading of the vessel from the belt. Strain values in the carotid artery elements increased with increasing speed of impact. The lower and higher speed tests with a low belt configuration resulted in a maximum principal strains, at maximal belt engagement, of 0.223 and 0.459, respectively. Corresponding values for the high belt configuration were 0.222 and 0.563. In both belt configurations, the non-struck side vessel stretched more than the struck side vessel; however, the non-struck side vessel experienced higher compressive forces. Strain values measured during the simulations can be compared to a value of 0.31 to intimal failure in previous experimental tests. These results quantitatively illustrate the two primary mechanisms of injury to the carotid artery: tension and intima-to-intima contact of the vessel. Based on the study, low belt placement and limiting head excursion is recommended to reduce both stretching and compression of the carotids in side impact.
机译:在远端碰撞配置中,乘员可能会从座位空间经历严重偏移。面对这一挑战,人们将研究重点放在替代约束上,例如四点式安全带。这种几何形状的潜在含义是安全带与乘员颈部的相互作用。这项研究使用有限元模型(FEM)在具有反向三点约束的远端碰撞配置中检查了颈动脉的反应。制定了颈动脉和颈部筋膜的有限元模型,并将其与1.44版的总体人类安全模型(THUMS)集成在一起。该模型经受了模拟远端碰撞的四个测试条件。负载条件包括大约4 m / s的低速冲击和大约10 m / s的高速冲击。对于每个速度,模型都受到约束,皮带位于脖子下方,皮带位于脖子上方。分析了颈动脉每个元素的应变数据。检查容器的总体响应以确定高应变值的位置。较低的安全带放置导致更多的头部偏移,使未受打击的一侧的颈动脉伸展。较高的安全带放置位置会由于从安全带直接加载血管而使受压侧的动脉受压。颈动脉元件中的应变值随着撞击速度的增加而增加。低皮带配置的低速和高速测试导致最大皮带接合时的最大主应变分别为0.223和0.459。高带构造的相应值为0.222和0.563。在两种皮带配置中,未撞击侧容器的拉伸程度均大于撞击侧容器;但是,未碰撞的侧容器承受较高的压缩力。在先前的实验测试中,可以将模拟过程中测得的应变值与内膜破坏的值0.31进行比较。这些结果定量地说明了颈动脉损伤的两个主要机理:血管的张力和内膜与内膜的接触。根据这项研究,建议降低皮带的放置和限制头部的偏移,以减少侧面撞击时颈动脉的伸展和压缩。

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