猪胸腹替代物对侧摆冲击的反应比发展。

Q2 Medicine
Jennifer L Yaek, John M Cavanaugh, Stephen W Rouhana
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引用次数: 0

摘要

在过去的10年里,比较6岁儿童志愿者、儿童死后人类受试者(PMHS)、动物替代品和6岁ATDs的胸部和腹部反应的研究取得了最近的进展。虽然在指导成人到儿童胸腹数据的比例规律以用于ATD设计和有限元模型开发方面取得了进展,但还需要进一步努力,特别是在侧面影响方面。本研究的目的是利用Yaek等人(2018)的等效年龄猪的冲击反应数据,评估用于开发从成年等效猪(PSE)到3岁、6岁和10岁胸部和腹部身体区域横向冲击反应走廊的缩放定律的有效性。从50名成年男性PSE钟摆横向冲击T1、T14和L6的加速度和钟摆冲击力时间历史中创建横向冲击响应走廊,进行胸腔和腹部测试。采用ISO 9790标度技术,使用长度、质量和弹性模量的标度因子公式,结合测量的猪参数,计算PSE的标度因子。除了计算相关的试验尺度因子外,还计算了摆锤冲击试验的响应比。将猪替代品确定的比例因子和反应比与已经建立的ISO人类侧摆冲击反应比进行比较,以确定两组数据(人类和猪)在年龄水平上是否存在一致的模式。从3岁的PSE患者到50岁的男性PSE患者,实际的横向冲击摆数据在幅度和持续时间上都有所增加。这种幅度和持续时间的增加与基于脉冲动量分析和从人类颅骨导出的弹性弯曲模量开发的人类反应走廊相当。人类影响响应走廊的这种模式在响应比率值和猪响应数据中被观察到。基于本研究的发现,在利用前人研究的人颅骨弹性模量时,PSE的胸腹侧摆冲击响应遵循一般的标度规律,基于脉冲-动量弹簧-质量模型。PSE的胸腹侧摆力冲击响应也遵循前人研究中提出的人体尺度侧摆冲击试验的冲击响应走廊。通过对适当体重的猪替代物进行实际猪试验,本研究的总体结果证实,使用先前研究中建立的人类头骨弹性模量值,缩放定律适用于从中型成年男性到3岁的水平。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Response Ratio Development for Lateral Pendulum Impact with Porcine Thorax and Abdomen Surrogate Equivalents.

There has been recent progress over the past 10 years in research comparing 6-year-old thoracic and abdominal response of pediatric volunteers, pediatric post mortem human subjects (PMHS), animal surrogates, and 6-year-old ATDs. Although progress has been made to guide scaling laws of adult to pediatric thorax and abdomen data for use in ATD design and development of finite element models, further effort is needed, particularly with respect to lateral impacts. The objective of the current study was to use the impact response data of age equivalent swine from Yaek et al. (2018) to assess the validity of scaling laws used to develop lateral impact response corridors from adult porcine surrogate equivalents (PSE) to the 3-year-old, 6-year-old, and 10-year-old for the thorax and abdominal body regions. Lateral impact response corridors were created from 50th adult male PSE pendulum lateral impact T1, T14, and L6 accelerations and pendulum impact force time histories for the thorax and abdomen testing performed. The ISO 9790 scaling technique using length, mass, and elastic modulus scale factor formulas were used in conjunction with measured swine parameters to calculate scale factors for the PSE. In addition to calculation of pertinent test scale factors, response ratios for the pendulum impact tests were calculated. The scaling factors and response ratios determined for the porcine surrogates were compared to the already established ISO human lateral pendulum impact response ratios to determine whether a consistent pattern over the age levels described for the two sets of data (human and swine) exists. The actual lateral impact pendulum data, for both thoracic and abdominal regions, increases in magnitude and time duration from the 3-year-old PSE up to the 50th male PSE. This increase in magnitude and time duration is comparable to the human response corridors developed based on an impulse-momentum analysis and the elastic bending modulus derived from human skull bone. This pattern in the human impact response corridors was observed in the response ratio values and the swine response data. Based on the current study's findings, when utilizing the elastic modulus of human skull bone presented previously in research, thoracic and abdominal lateral pendulum impact response of PSE follows the general scaling laws, based on the impulse-momentum spring-mass model. The thoracic and abdominal lateral pendulum force impact response of PSE also follows the human scaled impact response corridors for lateral pendulum impact testing presented in previous research. The overall findings of the current study confirm, through actual swine testing of appropriate weight porcine surrogates, that scaling laws are applicable from the midsized-male adult down to the 3-year-old age level using human skull elastic modulus values established in previous research.

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Stapp car crash journal
Stapp car crash journal Medicine-Medicine (all)
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