井下爆炸环境下ATD与PMHS响应的比较。

Q2 Medicine
K. Danelson, A. Kemper, M. Mason, M. Tegtmeyer, Sean A Swiatkowski, J. Bolte, W. Hardy
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引用次数: 40

摘要

开发了一种爆炸buck(加速加载夹具,简称ALF),用于在类似实验室的环境中研究体下爆炸事件。它旨在为尸体和假人测试提供高强度,高速率,垂直加载环境。它由一个带有加强笼的平台组成,该平台支持两个船员位置的可调高度刚性座椅。该平台有一个带有可变形地板嵌件的重型框架。使用14个PMHS(死后人类替代品)和Hybrid III ATD(拟人试验装置)进行了14次试验。试验在两种电荷水平下进行:增强和轻度。实验中,受试者分别佩戴和不佩戴PPE(个人防护装备),并以两种不同的姿势进行测试:名义(膝关节角度为90°)和钝角(膝关节角度为120°)。ALF在PMHS中再现的损伤与剧院中经历的损伤相当,最常见的损伤是骨盆和脚踝。负荷通过替代物以尾端到颅骨的顺序方式传递。脚/地板运动开始后2毫秒内开始对PMHS下肢的损伤。混合III不能承担PMHS在刚性座椅的姿势,并表现出与PMHS相比更硬的整体响应。ATD不模拟PMHS下肢的运动学响应。此外,Hybrid III不具备在高速垂直载荷环境下预测潜在伤害的能力。需要一种专门用于车体下爆炸的新型ATD,以帮助减轻骑乘士兵所受的伤害。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Comparison of ATD to PMHS Response in the Under-Body Blast Environment.
A blast buck (Accelerative Loading Fixture, or ALF) was developed for studying underbody blast events in a laboratory-like setting. It was designed to provide a high-magnitude, high-rate, vertical loading environment for cadaver and dummy testing. It consists of a platform with a reinforcing cage that supports adjustable-height rigid seats for two crew positions. The platform has a heavy frame with a deformable floor insert. Fourteen tests were conducted using fourteen PMHS (post mortem human surrogates) and the Hybrid III ATD (Anthropomorphic Test Device). Tests were conducted at two charge levels: enhanced and mild. The surrogates were tested with and without PPE (Personal Protective Equipment), and in two different postures: nominal (knee angle of 90°) and obtuse (knee angle of 120°). The ALF reproduces damage in the PMHS commensurate with injuries experienced in theater, with the most common damage being to the pelvis and ankle. Load is transmitted through the surrogates in a caudal-to-cranial sequential fashion. Damage to the PMHS lower extremities begins within 2 ms after the initiation of foot/floor motion. The Hybrid III cannot assume the posture of the PMHS in rigid seats and exhibits a stiffer overall response compared to the PMHS. The ATD does not mimic the kinematic response of the PMHS lower extremities. Further, the Hybrid III does not have the capability to predict the potential for injury in the high-rate, vertical loading environment. A new ATD dedicated to under-body blast is needed to assist in the effort to mitigate injuries sustained by the mounted soldier.
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来源期刊
Stapp car crash journal
Stapp car crash journal Medicine-Medicine (all)
CiteScore
3.20
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