Simulating Pelvis Kinematics from Belt and Seat Loading in Frontal Car Crash Scenarios: Important Boundary Conditions that Influence the Outcome.

IF 3 2区 医学 Q3 ENGINEERING, BIOMEDICAL Annals of Biomedical Engineering Pub Date : 2024-10-28 DOI:10.1007/s10439-024-03631-9
Erik Brynskog, Johan Iraeus, Bengt Pipkorn, Johan Davidsson
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Abstract

Purpose: The risk of submarining during automotive crashes, defined by the lap belt sliding off the pelvis to load the abdomen, is predicted to increase in future autonomous vehicles as greater variation in seating position is enabled. Biofidelic tools are required to efficiently design and evaluate new and/or improved safety systems. This study aims to evaluate the pelvis response sensitivity to variations in boundary conditions that directly influence the pelvis loads, deemed important for the submarining outcome, to facilitate a more precise comparison between finite element human body models (FE-HBMs) and post-mortem human subjects (PMHSs).

Methods: A parameter study, using a one-variable-at-a-time analysis (low/high) of belt friction, seat friction, seat stiffness, and (on/off) for added belt bending stiffness, was performed using a state-of-the-art FE-HBM in four different test scenarios; one stationary, two sleds with upright occupant posture, and one sled with reclined occupant posture.

Results: In the stationary scenario, both belt friction and belt bending stiffness influenced the belt folding behavior, which consequently affected the belt-to-pelvis angle at submarining. In the sled scenarios, only seat friction was found to influence the pelvis kinematics and submarining outcome, with the most biofidelic response resulting from both the low (0.2) and high (0.5) friction coefficient depending on the scenario.

Conclusion: To reduce uncertainty in boundary conditions affecting the external pelvis loads and increase confidence in FE-HBM to PMHS comparisons, it is recommended that future experiments evaluate the PMHS to seat friction coefficient and that new belt modeling methods that accurately capture belt folding when interacting with soft tissues are developed.

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模拟汽车正面碰撞场景中腰带和座椅负载对骨盆运动学的影响:影响结果的重要边界条件。
目的:在汽车碰撞过程中,腹带从骨盆滑落到腹部,从而导致潜入的风险,预计在未来的自动驾驶汽车中,随着座椅位置的变化越来越大,潜入的风险也会增加。要有效地设计和评估新的和/或改进的安全系统,就需要生物保真工具。本研究旨在评估骨盆对直接影响骨盆载荷的边界条件变化的反应灵敏度,这些条件被认为对潜航结果非常重要,有助于在有限元人体模型(FE-HBM)和死后人体模型(PMHS)之间进行更精确的比较:在四种不同的测试场景中,使用最先进的有限元人体模型对安全带摩擦、座椅摩擦、座椅刚度和(开/关)附加安全带弯曲刚度进行了一次一变量分析(低/高),并进行了参数研究:在静止场景中,腰带摩擦和腰带弯曲刚度都会影响腰带的折叠行为,从而影响腰带在潜入水中与骨盆的夹角。在雪橇情景中,只有座椅摩擦力会影响骨盆运动学和潜入结果,根据不同情景,低摩擦系数(0.2)和高摩擦系数(0.5)会产生最符合生物特征的反应:为了减少影响骨盆外部载荷的边界条件的不确定性,并增加 FE-HBM 与 PMHS 比较的可信度,建议在未来的实验中评估 PMHS 与座椅的摩擦系数,并开发新的腰带建模方法,以准确捕捉腰带与软组织相互作用时的折叠情况。
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来源期刊
Annals of Biomedical Engineering
Annals of Biomedical Engineering 工程技术-工程:生物医学
CiteScore
7.50
自引率
15.80%
发文量
212
审稿时长
3 months
期刊介绍: Annals of Biomedical Engineering is an official journal of the Biomedical Engineering Society, publishing original articles in the major fields of bioengineering and biomedical engineering. The Annals is an interdisciplinary and international journal with the aim to highlight integrated approaches to the solutions of biological and biomedical problems.
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