Lh. Peebles et al., ON THE EXOTHERM OF POLYACRYLONITRILE .2. EXAMINATION OF DEUTERATED POLYMERS, Journal of polymer science. Part A, Polymer chemistry, 33(12), 1995, pp. 2069-2077
A series of alpha-, beta,beta-, and alpha,beta,beta-deuterium-labeIled
acrylonitrile monomers were prepared and polymerized. Secondary deute
rium isotope effects on the polymerization and on the pyrolysis reacti
ons that precede carbon fiber formation were observed. When deuterium
is in the alpha-position, the polymerization rate is greater and the m
olecular weight is higher. It is proposed that either the propagation
rate constant or both that constant and the termination rate constant
are increased on deuterium substitution. In differential scanning calo
rimetry, the polyacrylonitrile exotherm occurs at higher temperatures
and is narrower when deuterium is substituted at the alpha-position. O
n the other hand, the thermal gravimetric analysis activation energy f
or weight loss of polymer at temperatures below the acrylic exotherm i
s lower when deuterium is in the a-position, relative to the alpha-hyd
rogen polymers. As there is no correlation between the weight loss ene
rgy of activation and the various exotherm parameters, the weight loss
and the exotherm are considered to be independent events. Examination
of the distribution of deuterium substituted ammonia species evolved
during 100-240 degrees C thermal treatment of the alpha- and beta,beta
-deuterated polyacrylonitriles provides a clear indication that both t
he alpha- and beta-positions are directly involved in hydrogen migrati
on to nitrogen, but the mechanism of ammonia generation remains unclea
r. (C) 1995 John Wiley and Sons, Inc.