T. L. Wang scite author profile

The chemorheological behavior of an epoxy‐novolac molding compound was studied by a combination of differential scanning calorimetry and dynamic rheological measurements. Based on a modified version of Kamal and Sourour's kinetic expression, a procedure aiming at the phenomenological description of cure kinetics was developed. In combination with our kinetic study, an empirical Arrhenius‐type expression was adopted for the description of the dependence of complex viscosity on temperature, frequency, and conversion by allowing the pre‐exponential factor and the flow activation energy to be frequency‐ and conversion‐dependent. At low conversions (α < ∼0.05), the system behaves approximately as a thermoplastic material; at higher conversions, the rheological behavior of the system was dominated by the extent of cure reaction.

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T. L. Wang

Structural studies of starches with different water contents

Chemorheological analysis of an epoxy‐novolac molding compound

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