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This paper analyzes the difference in impact response of the forehead of the Hybrid III and THOR-NT dummies in free motion headform tests when a dummy strikes the interior trim of a vehicle. Hybrid III dummy head is currently used in FMVSS201 tests. THOR-NT dummy head has been in development to replace Hybrid III head. The impact response of the forehead of both the Hybrid III dummy and THOR dummy was designed to the same human surrogate data. Therefore, when the forehead of either dummy is impacted with the same initial conditions, the acceleration response and consequently the head Injury criterion (HIC) should be similar. A number of manufacturing variables can affect the impacted interior trim panels. This work evaluates the effect of process variation on the response in the form of Head Injury Criterion (HIC).

A study was performed to determine the effects of varying the wall thickness and material glass fiber concentration for parallel and perpendicular shrinkage rates for a constrained thin-walled box shaped component. An analysis of the shrinkage for the bottom portion of a 3 dimensional constrained thin walled injection molded component was performed using measurements made from bitmap images of the components that were obtained from a traditional flatbed scanner. The shrinkage rates were determined by comparing mold cavity hatch lines to the correlating transposed hatch lines on the plastic molded component. The perpendicular and parallel shrinkage rates were determined and are discussed as a function of thickness and glass fiber content. A wide range of processing control factors was used in the study.

This paper reviews how sound transmission loss (STL) of insulators is affected by gravitational and thermal effects. A special STL test fixture was designed and fabricated to quickly and accurately obtain the STL measurement of a sample oriented at various controlled angles. The STL apparatus was designed to roll into a large reverberation chamber and act as the anechoic termination for a two-microphone approach to measuring STL. The fixture was also built with the intention of studying the temperature effects on a material's STL performance. A variety of samples, including lightweight and traditional barrier decoupled insulators, were tested in the horizontal, vertical, and inverted positions to evaluate gravitational/inertial effects. Thermal effects were investigated by bringing the STL apparatus and sample to a low temperature by moving outdoors, and then rolling the system into the reverberation chamber, at normal room temperature.