Energy-absorbing FUPDs and their interactions with fronts of passenger cars
Journal article, 2010
Structural and in-depth analyses of the crash accidents between heavy goods vehicles and passenger cars showed that the
front underrun protective device (FUPD), obeying the Economic Commission for Europe Regulation No. 93, is not sufficient
to protect the passenger cars from overriding by heavy goods vehicles in all expected traffic situations. This is based on the
expectation that an FUPD will mitigate the severity of these accidents. The unpredictable behaviour of a car during frontal
collisions has been identified as a central issue to resolve for FUPD development and testing. On the basis of the findings
from the in-depth accident analysis, a simulation matrix was designed and simulations between a passenger car model and
a model of FUPD with energy-absorbing elements were run. The goal of the simulations was to understand the theoretical
possibilities for energy-absorbing FUPDs and identify some of the critical structural requirements needed to improve frontal
crash protection. An analysis of the simulation results showed that a properly activated FUPD with energy-absorbing elements
can decrease the severity of the crash by absorbing more than 30% of the total kinetic energy. It was found that the force
needed to activate the deformation of FUPD energy-absorbing elements can be used to improve the deformation mode of the
car front structure in such a way as to decrease the crash severity.
FUPD
compatibility
HGVs
FEM
heavy goods vehicles
front underrun protective device