Human and manikin head/neck response to +Gz acceleration when encumbered by helmets of various weights

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Buhrman, John R.¹; Perry, Chris E.¹

Human and manikin head/neck response to +Gz acceleration when encumbered by helmets of various weights

Aviat Space Environ Med. December 1994;65(12):1086-1090

Affiliations

¹Escape and Impact Protection Branch, Biodynamics and Biocommunications Division, Crew Systems Directorate, Armstrong Laboratory, Wright-Patterson AFB, OH
Abstract

A series of +Gz impact tests were performed on the Armstrong laboratory vertical decelerator with human and manikin subjects wearing various helmet-mounted systems. The resulting data were used to quantify the effects on human dynamic response of varying helmet mass and seat acceleration as well as to provide comparisons to previously established safe limits of impact exposures. Tests with human subjects and a 97th percentile manikin were performed at seat impact levels of up to + 10 Gz for human and + 15 Gz for manikins, with standard and prototype helmet-mounted systems weighing from 3.2 to 6.6 lb. The results showed that increases in the helmet weight and seat acceleration resulted in increased compression, shear, and rotational forces on the neck. With helmet weights greater than 4.5 lb during +15 Gz impacts, neck compression force began to exceed established cadaver injury limits.
Links

PubMed: 7872908

WoS: A1994PV82100003

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2004	Doczy E, Mosher S, Buhrman J. The effects of variable helmet weight and subject bracing on neck loading during frontal -Gx impact. In: Proceedings of the 42nd Annual Safe Association Symposium. September 27-28, 2004; Salt Lake City, UT.186-192.
2008	Gallagher HL, Caldwell E, Albery CB. Neck Muscle Fatigue Resulting from Prolonged Wear of Weighted Helmets. Wright-Patterson AFB, OH: Biomechanics Branch, Biosciences and Protection Division, Human Effectiveness Directorate, Air Force Research Laboratory; June 2008. Report No. AFRL-RH-WP-TR-2008-0096.
2005	Manoogian SJ, Kennedy EA, Duma SM. An Updated Literature Review of Musculoskeletal Injuries to the Human Neck and the Effects of Head-Supported Mass Worn by Soldiers. Fort Rucker, AL: U.S. Army Aeromedical Research Laboratory; October 2005. USAARL Contract Report CR-2006-01.
2012	Parr JC, Miller ME, Bridges NR, Buhrman JR, Perry CE, Wright NL. Evaluation of the Nᵢⱼ neck injury criteria with human response data for use in future research on helmet mounted display mass properties. In: Proceedings of the Human Factors and Ergonomics Society 56th Annual Meeting. 2012:2070-2074.
2003	Perry CE, Buhrman JR, Doczy EJ, Mosher SE. Evaluation of the Effects of Variable Helmet Weight on Human Response During Lateral +Gy Impact. Wright-Patterson AFB, OH: Biomechanics Branch, Biosciences and Protection Division, Human Effectiveness Directorate, Air Force Research Laboratory; August 2003. Report No. AFRL-HE-WP-TR-2004-0013.
2014	Sovelius R. Cervical Loading Analysis of Fighter Pilots: Studies on Cumulative Loading, Contributing Factors and Interventions [PhD thesis]. Tampere, Finland: University of Tampere School of Medicine; February 21, 2014.
2017	McNamara KP, Jones DA, Gaewsky JP, Ye X, Koya B, Saffarzadeh M, Gayzik FS, Weaver AA, Stitzel JD. Validating FE Hybrid III, THOR, and GHBMC M50-OS for future spaceflight configuration testing. In: Proceedings of the 13th Ohio State University Injury Biomechanics Symposium. May 21-23, 2017; Columbus, OH.
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