Assessment of the Thor and Hybrid III crash dummies: steering wheel rim impacts to the upper abdomen

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Shaw, Greg¹; Lessley, David¹; Bolton, Jim¹; Crandall, Jeff¹

Assessment of the Thor and Hybrid III crash dummies: steering wheel rim impacts to the upper abdomen

Proceedings of the SAE World Congress & Exhibition

Affiliations

¹University of Virginia Center for Applied Biomechanics
Abstract

This investigation explored THOR's force-deflection response to upper abdomen/lower ribcage steering wheel rim impacts in comparison to the Hybrid III and cadaver test subjects. The stationary subjects were impacted by a ballasted surrogate wheel propelled at 4 m/s, a test condition designed to approximate the upper abdomen impacting a steering wheel rim in a frontal crash. Both the standard THOR and the Hybrid III crash dummies were substantially stiffer than the cadavers. Removing THOR's torso skin and foam from the upper abdomen and replacing the standard Hybrid III abdomen with a prototype gel-filled unit produced force-deflection results that were more similar to the cadavers. THOR offers advantages over the Hybrid III because of its ability to measure abdominal deflection. THOR, with modification, would be a useful instrument with which to assess the crashworthiness of steering assemblies and restraint systems in frontal crashes. However, development of an improved THOR abdomen should be preceded by an effort to better characterize human force-deflection response and to determine injury thresholds.
Links

DOI: 10.4271/2004-01-0310

SAE: 2004-01-0310

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Cited By (13)

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2017	Hikida K, Maehara K, Mikami H, Mae H. Repeatability and reproducibility of upper thorax reponses of THOR-50M ATDs. In: Proceedings of the 25th International Technical Conference on the Enhanced Safety of Vehicles (ESV). June 5-8, 2017; Detroit, MI.
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2023	Koerber S, Rawska K, Lancashire R, Bosma F, Gepner B, Forman J. Development of a model-specific tuning methodology for frontal impact rib fracture injury risk assessment for multibody human body models. In: Proceedings of the 2023 International IRCOBI Conference on the Biomechanics of Injury. September 13-15, 2023; Cambridge, United Kingdom.411-441.
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