Influence of the processing on the completion of curing in epoxy‐based composites

Abstract

AbstractDifferential scanning calorimetry analysis was used to investigate interrelationships between several thermal parameters and the processing conditions of particle‐filled thermosetting resins. On the same piece, obtained by injection molding, epoxy‐based composites exhibited sensible differences within a set of measurements of the glass‐transition temperature, the width of the transition, the difference in the heat capacity, and the conversion degree. Statistical analysis showed a strong intercorrelation between these thermal parameters, but it could not provide any explanation for the disparities. The dispersion of the measured properties could, in a second step, be directly related to a sample's position with respect to the injection point in the mold. Moreover, even the postcuring stage could not erase this topological effect. As a result, a phenomenological model is proposed that fairly describes the experimental trends. This simple polynomial approach can subsequently be used either to determine the thermal parameters of any point of a molded piece or to shed some light on phenomena responsible for the large variations of the measured quantities. © 2005 Wiley Periodicals, Inc. J Appl Polym Sci 96: 1368–1376, 2005