量化设计特征对青少年自行车头盔在斜向撞击时性能的影响。

Quantifying Effects of Design Features on Youth Bicycle Helmet Performance During Oblique Impacts.

作者信息

Jung Caitlyn, Stark Nicole E-P, Gagliardi Susanna M, Begonia Mark T, Rowson Steve

机构信息

Department of Biomedical Engineering and Mechanics, Virginia Tech, 120 Kelly Hall, 325 Stanger Street MC 0298, Blacksburg, VA, 24061, USA.

Institute for Critical Technology and Applied Science, Virginia Tech, Blacksburg, VA, USA.

出版信息

Ann Biomed Eng. 2025 Apr 5. doi: 10.1007/s10439-025-03730-1.

DOI:10.1007/s10439-025-03730-1

PMID:40188232

Abstract

PURPOSE

Cycling is a leading cause of youth sports-related head injury in the U.S. Although youth bicycle helmets sold in the U.S. comply with safety standards limiting head linear acceleration, there needs to be more information on relative differences in protection between helmets that pass. Additionally, studies have yet to look at quantifying youth bicycle helmet performance with respect to their design.

METHODS

Twenty-one youth bicycle helmet models were subjected to oblique impacts at three locations and two impact speeds where peak linear acceleration (PLA) and peak rotational acceleration (PRA) were quantified. Design features were characterized, including expanded polystyrene (EPS) thickness and presence of shell protrusions. A linear mixed model was used to quantify the effects of design features on PLA and PRA.

RESULTS

The youth bicycle helmet models evaluated produced wide ranges in kinematics across all configurations. PLA averaged 95.9 ± 26.1 g at 3.1 m/s and 170.1 ± 43.5 g at 5.2 m/s, while PRA averaged 3150 ± 1275 rad/s at 3.1 m/s and 4990 ± 1977 rad/s at 5.2 m/s. Impact location, impact speed, and EPS thickness had strong effects on PLA and PRA, whereas shell protrusions only had strong effects on PLA.

CONCLUSION

Youth bicycle helmets with thicker EPS, thinner shells, and shell protrusions at impact locations improved the linear and rotational kinematic measures. Limitations include the small sample size and the impacts analyzed not representing all possible real-world scenarios.

摘要

目的

在美国，骑自行车是青少年与运动相关头部受伤的主要原因。尽管在美国销售的青少年自行车头盔符合限制头部线性加速度的安全标准，但对于通过测试的头盔之间防护的相对差异，仍需要更多信息。此外，尚未有研究对青少年自行车头盔的设计性能进行量化。

方法

对21种青少年自行车头盔模型在三个位置以两种撞击速度进行斜向撞击，量化峰值线性加速度（PLA）和峰值旋转加速度（PRA）。对设计特征进行了表征，包括发泡聚苯乙烯（EPS）厚度和外壳突起情况。使用线性混合模型来量化设计特征对PLA和PRA的影响。

结果

所评估的青少年自行车头盔模型在所有配置下的运动学表现范围广泛。在3.1米/秒时，PLA平均为95.9±26.1克，在5.2米/秒时为170.1±43.5克；而在3.1米/秒时，PRA平均为3150±1275弧度/秒，在5.2米/秒时为4990±1977弧度/秒。撞击位置、撞击速度和EPS厚度对PLA和PRA有强烈影响，而外壳突起仅对PLA有强烈影响。

结论

具有更厚EPS、更薄外壳以及在撞击位置有外壳突起的青少年自行车头盔改善了线性和旋转运动学指标。局限性包括样本量小以及所分析的撞击情况不能代表所有可能的现实场景。

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量化设计特征对青少年自行车头盔在斜向撞击时性能的影响。

Quantifying Effects of Design Features on Youth Bicycle Helmet Performance During Oblique Impacts.

作者信息

机构信息

出版信息

PURPOSE

METHODS

RESULTS

CONCLUSION

目的

方法

结果

结论

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