EVU XXV 2016 – 34 Dynamic Response in Low Speed Rear Impacts and Inferences for Injury Potential
Dynamic Response in Low Speed Rear
Impacts and Inferences for Injury Potential
Denis P. Wood, Colin Glynn, Naoya Nishimura, Ciaran Simms
Abstract
This paper examines the dynamic impact response of cars in full engagement, underride/override and
tow ball low speed rear impacts and compares the differences in mean acceleration and dynamic crush
as a function of collision velocity and deltaV for the three collision types. The data was derived from
detailed analysis of the crash test data in the AGU database. Analysis shows distinct relationships for
the three collision types. For any given collision velocity the highest mean accelerations occur in the
full engagement impact, with the lowest mean accelerations occurring in the tow ball impacts. It is also
shown that the maximum dynamic crush occurs in tow bar collisions, with the minimum dynamic crush
occurring in full engagement collisions.Published research shows that SPUL (Specific Accident Power) more accurately reflects overall injury risk than deltaV (ΔV).The representative SPUL threshold values for the oft-cited 3mph and 5mph deltaV (ΔV) threshold values for the onset of ‘whiplash associated’ injury risk for rear-struck vehicles in the fullengagement case are 20 m2/s3 and 54 2/s3. Equivalent deltaV values which equate to the SPUL threshold values are derived as 3.3mph and 5.5mph for underride/override collisions and 3.8mph and 6.3mph for tow ball collisions.
La lettura di questo articolo è riservata ai soli Soci EVU Italia
| Autore | Denis P. Wood, Colin Glynn, Naoya Nishimura, Ciaran Simms |
| Pubblicato il | |
| Tipologia |