Graphical abstract
HighlightsThe influence of vehicle shape on head-ground impact injury is investigated.Bonnet leading edge height is the main factor affecting head-ground impact.The influence mechanisms of vehicle dimensional parameters are analyzed.Seven identified mechanisms of head-ground impact are proposed.
AbstractIn pedestrian–vehicle accidents, pedestrians typically suffer from secondary impact with the ground after the primary contact with vehicles. However, information about the fundamental mechanism of pedestrian head injury from ground impact remains minimal, thereby hindering further improvement in pedestrian safety. This study addresses this issue by using multi-body modeling and computation to investigate the influence of vehicle front-end shape on pedestrian safety. Accordingly, a simulation matrix is constructed to vary bonnet leading-edge height, bonnet length, bonnet angle, and windshield angle. Subsequently, a set of 315 pedestrian–vehicle crash simulations are conducted using the multi-body simulation software MADYMO. Three vehicle velocities, i.e., 20, 30, and 40km/h, are set as the scenarios. Results show that the top governing factor is bonnet leading-edge height. The posture and head injury at the instant of head ground impact vary dramatically with increasing height because of the significant rise of the body bending point and the movement of the collision point. The bonnet angle is the second dominant factor that affects head–ground injury, followed by bonnet length and windshield angle. The results may elucidate one of the critical barriers to understanding head injury caused by ground impact and provide a solid theoretical guideline for considering pedestrian safety in vehicle design.
Exploring the mechanisms of vehicle front-end shape on pedestrian head injuries caused by ground impact
Accident Analysis and Prevention ; 106 ; 285-296
2017-06-06
12 pages
Aufsatz (Zeitschrift)
Elektronische Ressource
Englisch
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