Journal of Polymer Science Part B: Polymer Physics, Vol.42, No.5, 871-885, 2004
Phase separation of off-critical polymer blends of poly(styrene-co-maleic anhydride) and poly(methyl methacrylate). I. Kinetics of spinodal decomposition
The kinetics of phase separation via the spinodal decomposition of poly(styrene-co-maleic anhydride)/poly(methyl methacrylate) from a delay time period to late stages were investigated with a light scattering technique. The standard procedure for identifying four stages of spinodal decomposition, based on the characteristics of concentration fluctuations, was clearly introduced with the light scattering method. The spinodal limits were divided into four stages: the delay time, the early stage, the intermediate stage, and the late stage. The validity of the linearized theory was reviewed because it was used as an indicator of the limit of the early stage of spinodal decomposition, which divided the delay time period from the early stage and the early stage from the intermediate stage. The linearized theory fit the experimental results very well after the delay time. The scaled structure function of the melt-mixed blend was analyzed. The universality of the scale structure function, F(x) = S(q,t)q(m)(3)(t) (where S is the structure function, x is equal to q/q(m), q is the scattering wave vector, q(m) is the maximum wave vector, and t is the time in seconds), indicated the late stage of phase separation and divided the late stage from the intermediate stage. The simple normalized scaling function profile for the cluster region proposed by Furukawa described the experimental data very well, whereas the profile for deep quenching, which was recently suggested, showed some discrepancies. As a result of the phase separation, the processing of this blend may be able to be developed to provide the most suitable morphology. (C) 2004 Wiley Periodicals, Inc.