Micro-dielectric analysis (mu DEA) and differential scanning calorimetry (D
SC) were used to monitor cure of polymeric diphenylmethane diisocyanate (pM
DI) resin with wood strands in a saturated steam environment. A first-order
autocatalyzed kinetic model was employed to determine kinetic parameters.
The kinetics were found to follow an Arrhenius relation. A single ramp DSC
technique and mu DEA produced models that predicted similar results at high
er cure temperatures, but the mu DEA-based model predicts a longer cure tim
e at low temperatures. The isothermal mu DEA method yields higher activatio
n energies and Arrhenius frequency factors than models based on single DSC
ramps. A modification to ASTM E698 was made to conform to the assumption of
autocatalyzed kinetics. The modified ASTM E698 method predicted an earlier
end of cure than the mu DEA-based models and was in agreement with DSC res
ults obtained by partial cure experiments. The activation energies and freq
uency factors for the different cure monitoring methods are sensitive to di
fferent stages of cure. (C) 2001 Elsevier Science Ltd. All rights reserved.