Abstract This paper provides an overview of the energy and crush-space required to provide survivable head-on impacts between motorcars and energy-absorbing poles. Additionally it was required that the poles be remaining upstanding and possibly serviceable after the crash. A simplified acceleration-displacement pulse for the combined car and pole was used in the modelling described here. This pulse was arrived at using results from full-scale tests and FEA simulations of impacts from 60 km/h. The depth of crush into the car, at the point when 20 g is reached was estimated using published analysis of full-scale tests and it is a function of the car's mass, width, length and the diameter of the pole. The division of crush depth between the pole and the car was calculated using the assumption that the pole can be developed to crush from the time that the car reaches 20 g acceleration. The results show that a pole that provides no more than 20 g acceleration to a light car and remain upstanding, will be demolished by a medium or heavier sedan. A pole that would likewise suit a medium sized car would provide very little acceleration reduction for the lightest cars, and the heaviest sedans would in turn demolish it. There appears to be no practical combination of pole size and stiffness that suits the whole range of sedans. If it were possible to identify a probable impacting type of car, then poles may be designed to provide significant hazard reduction for those cars, but they would be less effective to other cars.


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    Title :

    Energy absorbing stand-up roadside signposts


    Contributors:
    Lozzi, A (author) / Briozzo, P (author)


    Publication date :

    2003




    Type of media :

    Article (Journal)


    Type of material :

    Print


    Language :

    English



    Classification :

    BKL:    55.20 Straßenfahrzeugtechnik



    Energy absorbing stand-up roadside signposts

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