Parametric design methods development for the comparison of American football faceguards using validated structural stiffness models

William D Ferriell, N. Wright, J. DesJardins, Gregory S. Batt
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Abstract

Recent advances in headgear design research have sought to inform athletes’ safety related decisions by ranking headgear systems according to impact performance. These rankings have provided athletes with greater agency in their safety-related decisions. Despite these improvements, little quantitative information exists to compare faceguard performance. Using validated structural stiffness finite element models, this study sought to develop a parametric design approach that could be consistently applied to faceguards of different qualitative categories and of different helmet-compatible series. The methods presented in this study detail the objective measurement techniques and parameters of interest used to fully define three common American football faceguards. The results of this study indicate an ability to define parameters consistently for faceguards of different qualitative categories and of different helmet-compatible series. The high degree of correlation between mass and structural stiffness indicates expected model performance – providing increased confidence in results. Intuitively, the greatest effect on mass and structural stiffness was the size of the diameter of the main bars. Increases in mass were achieved with minimal changes in structural stiffness. Conversely, increases in structural stiffness were achieved with minimal changes in mass. These results have implications for manufacturers as some faceguards, such as those classified as “overbuilt,” are banned – in part – for their weight. Future work should continue to compare manufacturers’ original designs and investigate other metrics to further quantify performance and safety for athletes. This tool may be used to improve new faceguard designs by comparing new models to faceguards allowed for use.
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使用验证的结构刚度模型开发用于比较美式足球面罩的参数化设计方法
头盔设计研究的最新进展试图通过根据冲击性能对头盔系统进行排名来为运动员的安全相关决策提供信息。这些排名为运动员在安全相关决策方面提供了更大的代理权。尽管有这些改进,但很少有定量信息可以比较面罩的性能。使用经过验证的结构刚度有限元模型,本研究试图开发一种参数化设计方法,该方法可以一致地应用于不同定性类别和不同头盔兼容系列的面罩。本研究中提出的方法详细介绍了用于完全定义三种常见美式足球面罩的客观测量技术和感兴趣的参数。这项研究的结果表明,有能力为不同质量类别和不同头盔兼容系列的面罩一致地定义参数。质量和结构刚度之间的高度相关性表明了预期的模型性能,从而增强了对结果的信心。直观地说,对质量和结构刚度的最大影响是主筋直径的大小。质量的增加是在结构刚度变化最小的情况下实现的。相反,结构刚度的增加是在质量变化最小的情况下实现的。这些结果对制造商有影响,因为一些面罩,比如那些被归类为“过度建造”的面罩,在一定程度上是因为它们的重量而被禁止的。未来的工作应该继续比较制造商的原始设计,并调查其他指标,以进一步量化运动员的性能和安全性。该工具可用于通过将新型号与允许使用的面罩进行比较来改进新面罩设计。
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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.
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