CORRELATION OF BINDER MECHANICAL-PROPERTIES WITH MICROSTRUCTURE FOR POLY(BUTADIENE ACRYLONITRILE METHACRYLIC-ACID) TERPOLYMER - C-13-NMR AND PYROLYSIS-GC STUDIES

C-13-NMR spectroscopy (22.5 MHz) was used to characterize poly (butadiene (B)-acrylonitrile (A) -methacrylic acid (M)) liquid terpolymers prepared by emulsion polymerization. The sequence distribution of the monomers in the terpolymers was described in terms of triads BBB, ABA, ABB, BBA, MBB, and AMB and was found to vary with the mode of addition of methacrylic acid monomer. The NMR data was found to be in good agreement with a mechanism of polymerization in which methacrylic acid is preferentially involved in initiation reactions by a thiyl radical arising from the reaction of the chain modifier, 1-dodecanethiol, and cyanoisopropyl radical generated from AIBN initiator. Binders obtained by curing the liquid terpolymers with an epoxy resin showed widely varying mechanical properties with tensile strength varying from 4.3 to 0.6 kg/cm2 and elongation at break from 130 to 450%. It was found that tensile strength increases and elongation decreases with the number of acrylonitrile units between the methacrylic acid crosslinks. Good correlation was obtained between triad population ratio [ABB + BBA][BB(v)B]/[ABA][MBB] and the mechanical properties of the binders. Pyrolsis-GC data at 550 and 600-degrees-C confirmed the results obtained from C-13-NMR, and the mole ratio of butadiene to arylonitrile in the pyrolyzates showed correlation with the properties of binders.