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Three groups of crash tests were analyzed to determine how well the standard fixed rigid barrier measures potential crash survivability in small cars when impacted full frontally by larger cars. In addition to experimental results, simple analytical methods were used to determine and compare the level of occupant protection in the small cars. The fixed rigid barrier appears to be an accurate crashworthiness-measuring device for small cars in high speed full frontal car/car collisions, if test velocities are selected on the basis of equivalent energy between car/barrier and car/car collisions as opposed to equivalent momentum.

Two computer models, ABAG 19 and HSRI-3D, were validated against experimental data to determine and compare their capability for simulating the responses of air bag restrained automobile occupants in severe frontal collisions. Standard sets of model input parameters were developed for both driver and passenger. The primary objective was to determine which model was best suited for determining potential crashworthiness in a large number of production vehicles. Advantages and disadvantages of the models were determined, using criteria such as accuracy, ease of use, quality of documentation and user orientation.

The roof structures of light utility vehicles are often comprised of a single composite shell without the usual steel or aluminum frames found on conventional passenger automobiles. This study analyzes the geometry of such structures in relation to their performance during rollover accident and roof intrusion. For a given set of material properties and roof impact velocity, their exists an optimum value of roof stiffness that would minimize the impact energy, manifested in a rollover accident, that would be transmitted to the occupant compartment. This work shows the effects of various geometric parameters on the amount of elastic strain energy that can be absorbed during deformation of the rooftop. The optimum roof geometry was determined to minimize the possibility of, if not the severity of, occupant injury.