Abstract
Chain transfer constants to monomer have been measured by an emulsion copolymerization technique at 44Β°C. The monomer transfer constant (ratio of transfer to propagation rate constants) is 1.9 Γ 10^β5^ for styrene polymerization and 0.4 Γ 10^β5^ for the methyl methacrylate reaction. Crossβtransfer reactions are important in this system; the sum of the crossβtransfer constants is 5.8 Γ 10^β5^. Reactivity ratios measured in emulsion were r~1~ (styrene) = 0.44, r~2~ = 0.46. Those in bulk polymerizations were r~1~ = 0.45, r~2~ = 0.48. These sets of values are not significantly different. Monomer feed compcsition in the polymerizing particles is the same as in the monomer droplets in emulsion copolymerization, despite the higher water solubility of methyl methacrylate. The equilibrium monomer concentration in the particles in intervalβ2 emulsion polymerization was constant and independent of monomer feed composition for feeds containing 0.25β1.0 mole fraction styrene. Radical concentration is estimated to go through a minimum with increasing methyl methacrylate content in the feed. Rates of copolymerization can be calculated a priori when the concentrations of monomers in the polymer particles are known.