The curing reaction of typical commercial phenol-formaldehyde novolac resin
s with hexamethylentetraamine (HMTA) was followed by dynamic mechanical ana
lysis. The evolution of the rheological parameters, such as storage modulus
G ', loss modulus G ", and tan delta (G " /G '), as a function of time, fo
r samples of the phenolic resins on cloth, was recorded. The curing reactio
n, leading to the formation of a crosslinked structure, is described by a t
hird-order phenomenological equation. This equation takes into account a se
lf-acceleration effect, as a consequence not only of the chemical reaction
of crosslinking after the gel point but of phase segregation as well. This
rheokinetic model of the curing of phenolic novolac resins permits the dete
rmination of the numerical values of the kinetic equation constants. The in
fluence of the composition, structure, and physical treatment on the curing
kinetics of the novolac resins is evaluated. (C) 2001 John Wiley & Sons, I
nc.