大型全方位儿童拟人试验装置在低速加载条件下的生物形态学评价。

Q2 Medicine
Thomas Seacrist, Jalaj Maheshwari, Valentina Graci, Christine M Holt, Raul Akkem, Gregory Chingas, Ethan C Douglas, Madeline Griffith, Aimee J Palumbo
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引用次数: 2

摘要

机动车碰撞事故仍然是儿童死亡的主要原因。传统上,约束设计的重点是碰撞阶段的冲击与最佳的座位乘员。为了优化现实场景下的约束设计,研究人员最近将研究重点扩展到非传统加载条件,包括碰撞前定位和低速碰撞。本研究的目的是通过比较大型全方位儿童(LODC) ATD在低速雪橇试验中的反应,评估其在非传统载荷条件下的生物保真度。使用LODC进行了低速(2-4 g, 1.9-3.0 m/s)正面(0°)、远侧倾斜(60°)和远侧侧向(90º)滑橇试验,以及侧向转向(0.72 g, 0.5 Hz)试验。使用带有机电电动安全带牵开器或预紧器的三点式皮带对LODC进行约束。动作捕捉标记放置在头部、躯干和腰带上。LODC与先前收集的儿科志愿者数据以及HIII 10和Q10进行了比较。通过比较儿科志愿者的平均ATD反应和儿科志愿者的95% CI,发现儿科志愿者和ATD患者之间存在显著差异。与儿童志愿者(263 - 333 mm)相比,在低速正面滑橇试验中,LODC表现出较低的头部前倾(262 mm)
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Biofidelic Evaluation of the Large Omni-Directional Child Anthropomorphic Test Device in Low Speed Loading Conditions.

Motor vehicle crashes remain the leading cause of death for children. Traditionally, restraint design has focused on the crash phase of the impact with an optimally seated occupant. In order to optimize restrain design for real-world scenarios, research has recently expanded its focus to non-traditional loading conditions including pre-crash positioning and lower speed impacts. The goal of this study was to evaluate the biofidelity of the large omni-directional child (LODC) ATD in non-traditional loading conditions by comparing its response to pediatric volunteer data in low-speed sled tests. Low-speed (2-4 g, 1.9-3.0 m/s) frontal (0°), far-side oblique (60°), and far-side lateral (90º) sled tests, as well as lateral swerving (0.72 g, 0.5 Hz) tests, were conducted using the LODC. The LODC was restrained using a 3-point-belt with an electromechanical motorized seat belt retractor, or pre-pretensioner. Motion capture markers were placed on the head, torso, and belt. The LODC was compared to previously collected pediatric volunteer data as well as the HIII 10 and Q10. Significant difference between the pediatric volunteers and ATDs were identified by comparing the mean ATD response to the pediatric volunteer 95% CI. The LODC exhibited lower forward head excursion (262 mm) compared to pediatric volunteers (263 - 333 mm) in low-speed frontal sled tests (p<0.05), but was closer to the pediatric volunteers than the HIII 10 (179 mm) and Q10 (171 mm). In lateral swerving, the LODC (429 mm) exhibited greater lateral head excursion (p<0.05) compared to pediatric volunteers (115 - 171 mm). The LODC exhibited a greater reduction in kinematics compared to the pediatric volunteers in all loading conditions with a pre-pretensioner. These data provide valuable insight into the biofidelity of the LODC in non-traditional loading conditions, such as evaluating pre-crash maneuvers on occupant response.

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来源期刊
Stapp car crash journal
Stapp car crash journal Medicine-Medicine (all)
CiteScore
3.20
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