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This paper describes ongoing research conducted by the National Highway Traffic Safety Administration (NHTSA) to evaluate the potential of safety restraints on large school buses. School bus transportation is one of the safest forms of transportation in the United States. Large school buses provide protection because of their visibility, size, and weight, as compared to other types of motor vehicles. Additionally, they are required to meet minimum Federal Motor Vehicle Safety Standards (FMVSS) mandating compartmentalized seating, emergency exits, roof crush and fuel system integrity, and minimum bus body joint strength.

The Eurosid-1 dummy was subjected to a series of lateral and oblique pendulum impacts to study the anomalous “flat-top” thorax deflection versus time-histories observed in full-scale vehicle tests. The standard Eurosid-1, as well as two different modified versions of the dummy, were impacted at 6 different angles from -15 to +20 degrees (0 degrees is pure lateral) in the horizontal plane. The flat-top deflections were observed in the tests with the standard Eurosid-1, while one of the modified versions reduced the flat-top considerably. Full scale vehicle tests with the standard and modified Eurosid-1 suggest similar reductions. A second series of tests was conducted on the modified Eurosid-1 to investigate the effect of door surface friction on the shoulder rotation and the chest deflection. The data suggested that increasing the friction on the door surface impeded shoulder rotation and ultimately reduced the chest deflection in the Eurosid-1.

This paper addresses serious, occupant crash injuries from: (a) head impacts with A-pillars, roof headers, and roof side rails, and (b) occupant entrapment and roof intrusion in rollover accidents. It also discusses two less frequent causes of injury: (a) fires in crashes, and (b) occupant ejection through the roof and rear window or rear doors. The paper estimates the relative frequencies of these types of injuries, classified according to the body area injured and the vehicle interior component responsible for the injury. Data for these estimates is from the National Crash Severity Study augmented by the 1979 Fatal Accident Reporting System data. Also, this paper addresses the potential for reducing the severity of these injuries in light motor vehicles, with particular emphasis on AIS 3 and more serious injuries.