Abstract

Abstract Radical copolymerization of methyl methacrylate (MMA, M 1 ) with various monomers has been studied in presence of modifiers, i.e., complexing agents (CA): ZnCl 2 , AlCl 3 , AlBr 3 , Al(C 2 H 5 ) 2 Cl, forming coordinate complexes with ester group of the monomer and of the propagating radical. The comonomers of the first group form complexes of similar structure and stability as MMA, methyl acrylate, or butyl acrylate. The comonomers of the second group do not form complexes with the modifiers (vinylidene chloride, 2,6‐dichlorostyrene, p ‐chlorostyrene, styrene). For all systems studied the copolymer composition follows the Mayo‐Lewis equation. In the first group of the systems the effective reactivity ratios ( r 1 , r 2 ) approach unity with increase of the CA molar content ( r 1 = r 2 ≃ 1 at [(CA)/MMA] + [MA] ≥ 0,3) In the second group of the systems the values of r 1 either increase to a limit value (at [CA]/[MMA] ≥ 0.3), pass through maximum, or decrease to a limiting value with the CA molar content. The values of r 2 decrease in all systems. The character of variation of r 1 and r 2 has been explained in terms of effects of the CA's on reactivity of MMA and PMMA radical. The equations for the copolymer compositions in these systems have been derived.