在高山滑雪中保护头部免受严重伤害的安全衬垫表演

Marine Dorsemaine, Catherine Masson, Serge Riveill, Nicolas Bailly, Pierre-Jean Arnoux
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引用次数: 0

摘要

为了保护滑雪者免受与障碍物(CWOs)的碰撞,滑雪场在这些障碍物上放置了衬垫。以前曾针对几种特定的头部撞击条件对衬垫的行为进行过实验研究。本研究的目的是对衬垫在多种 CWOs 情况下降低头部伤害风险的能力进行数值评估。滑雪者与障碍物碰撞的多体模型与根据实验测试校准的衬垫模型相关联。对不同的障碍物保护(无保护、15、20、30 厘米厚的衬垫)、滑雪者速度、障碍物形状和距离进行了研究,以模拟 3692 种 CWO 场景。根据 HIC15 和最大线性加速度(Amax)对头部受伤风险进行了评估。使用 Kruskal-Wallis 检验来研究初始条件、撞击条件和障碍物保护方面的伤害风险。模拟结果显示头部撞击速度较高(30.4 ± 14.2 km/h)。垫子模型大大降低了最大冲击力(368 ± 275 g,无保护 VS 215 ± 240 g,带 15 厘米厚垫子)和严重受伤风险(p < 0.001)。对于较低的头部撞击速度(20 km/h),所有衬垫都能防止严重伤害,而对于中等撞击速度(40 km/h),30 厘米厚的衬垫能更好地防止严重伤害。然而,即使是厚衬垫也无法在高速撞击(40 km/h)中保护滑雪者模型。这项研究评估了衬垫在各种事故条件下的性能,为衬垫保护的实地演化提供了定量信息。这些结果为改进衬垫标准和设计更有效的衬垫提供了有用信息。
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Safety padding performances to protect from severe head injuries during alpine skiing
To protect skiers from the collisions with obstacles (CWOs), ski areas place padding on these obstacles. Padding behavior was previously experimentally investigated for few specific head impact conditions. The goal of this study is to numerically evaluate padding ability to reduce head injury risks in multiple scenarios of CWOs. A multibody model of a skier colliding with an obstacle was associated with a padding model, calibrated based on experimental tests. Different obstacle protections (unprotected, 15-, 20-, 30-cm thick padding), skier speeds, obstacle shapes and distances were investigated to model 3692 scenarios of CWOs. Head injury risks were evaluated based on HIC15 and maximal linear accelerations (Amax). Kruskal-Wallis tests were used to investigate the injury risks regarding the initial conditions, impact conditions and obstacle protection. These simulations resulted in high head impact speeds (30.4 ± 14.2 km/h). The padding modeled significantly reduced Amax (368 ± 275 g unprotected VS 215 ± 240 g with 15-cm thick padding) and severe injury risks ( p < 0.001). For low head impact speeds (<20 km/h), all pads were able to protect from severe injuries, whereas for moderate impact speeds (<40 km/h), the 30-cm thick padding offered better protection from severe injuries. However, even thick padding could not protect the skier model from high-speed impacts (>40 km/h). This study evaluated padding performances in various accident conditions and brought quantitative information for field evolutions regarding padding protection. These results constitute useful information to improve the padding standard and to design more efficient padding.
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来源期刊
CiteScore
3.50
自引率
20.00%
发文量
51
审稿时长
>12 weeks
期刊介绍: The Journal of Sports Engineering and Technology covers the development of novel sports apparel, footwear, and equipment; and the materials, instrumentation, and processes that make advances in sports possible.
期刊最新文献
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