PMHS在倾斜姿势下正面碰撞潜在损伤模式和乘员运动的研究。

Q2 Medicine
Pascal Baudrit, Jérôme Uriot, Olivier Richard, Matthieu Debray
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引用次数: 2

摘要

在不久的将来,自动驾驶汽车的现实正在增长,预计相对于标准驾驶姿势,它将导致乘员姿势的显著变化。委托驾驶将允许以倾斜的姿势在座椅上睡觉和/或休息。然而,文献中关于身体运动学、人体耐受性和仰卧姿势损伤类型的数据很少。目前的研究旨在增加该领域的知识,并提供有用的数据来评估标准损伤评估工具(如拟人化测试设备或有限元人体模型)的相关性。为此,对三名男性死后人类受试者(PMHS)进行了一系列测试,以13.4 m/s的速度进行正面碰撞。后座相对于纵轴倾斜58度。Uriot等人(2015)开发的半刚性座椅与更硬的座椅坡道一起使用。约束装置由一条配有两个3.5千牛负载限制器的腰带和一条在肩部附近的上部固定装置上配有4千牛负载限制装置的肩带组成。安全带、半刚性座椅和脚凳都配备了力传感器。还测量了座椅底板和座椅坡道的旋转。PMHS配备了多轴加速度计和Y角速度传感器,连接在头部、胸部(T1和T12椎骨)和骶骨上。应变片粘在L1至L5腰椎的前表面和髂骨翼的前表面上。为了估计骨盆运动学,在股骨轴上固定了一个装有目标的刚性支架。在测试之前,进行X射线成像以显示腰椎的初始弯曲。测试后,进行了深入的尸检,特别注意腰椎。在选定的试验条件下,未观察到三个PMHS的安全带次级损坏。一名PMHS遭受AIS2骨盆环骨折,另一名遭受AIS4损伤,左右骶髂关节完全分离。对三种PMHS(AIS2和AIS3编码)进行了腰椎间盘突出和脊椎骨折的观察。不同PMHS的分离肋骨骨折数量非常不同(0、6和33)。建立了外力和运动学的响应走廊,并给出了相应的响应走廊。通过与后座处于标准姿态的现有数据进行比较,对结果进行了讨论。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Investigation of Potential Injury Patterns and Occupant Kinematicsin Frontal Impact with PMHS in Reclined Postures.

The reality of the autonomous vehicle in a near future is growing and is expected to induce significant change inthe occupant posture with respect to a standard driving posture. The delegated driving would allow sleeping and/or resting in a seatwith a reclined posture. However, the data in the literature are rare on the body kinematics, human tolerance, and injury types insuch reclined postures. The current study aims at increasing the knowledge in the domain and providing useful data to assess therelevance of the standard injury assessment tools such as anthropomorphic test devices or finite element human body models. For that purpose, a test series of three male Post-Mortem Human Subjects (PMHS) were performed in frontal impact at a 13.4 m/sdelta V. The backseat inclination was 58 degrees with respect to the vertical axis. The semi-rigid seat developed by Uriot et al.(2015) was used with a stiffer seat ramp. The restraint was composed of a lap belt equipped with two 3.5 kN load limiters, and ofa shoulder belt equipped of a 4 kN load limiter on the upper anchorage placed in the vicinity of the shoulder. The belts, the semi-rigid seat, and the footrest were equipped with force sensors. The rotations of the seat pan and of the seat ramp were also measured. The PMHS were instrumented with multi-axis accelerometers and Y angular velocity sensors attached to the head, thorax (T1 andT12 vertebrae), and sacrum. Strain gauges were glued onto the anterior face of the L1 to L5 lumbar vertebrae and onto the anteriorface of the iliac wings. To estimate the pelvis kinematics, a rigid support equipped with targets was fixed onto the femur shaft. Prior to test, X-ray imagery was performed to exhibit the initial curvature of the lumbar spine. After the tests, an in-depth necropsywas done, with a specific attention to the lumbar spine. In the chosen test conditions, no lap-belt submarining was observed for the three PMHS. One PMHS sustained an AIS2 pelvic ringfracture and another one sustained an AIS4 injury with complete separation of the left and right sacroiliac joints. Lumbar discruptures and vertebral fractures were observed for the three PMHS (AIS 2 and AIS3 coding). The number of separated rib fractureswere very different from one PMHS to another (0, 6 and 33). Response corridors for the external forces and kinematics were builtand are presented in the paper. The results are discussed by comparing with existing data for which the backseat was in standardposture.

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来源期刊
Stapp car crash journal
Stapp car crash journal Medicine-Medicine (all)
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