A binary interaction model for miscibility of copolymers in blends

## Abstract The miscibility of CA/P(VP‐__co‐__MMA) blends was examined as a function of DS of CA and the VP fraction in the copolymer composition, in an extension of the previous studies on cellulose ester blends using P(VP‐__co‐__VAc) as a counter component. It was observed by DSC thermal analysis

## Abstract **Summary:** The phase behavior of poly(ethylene‐__co__‐styrene) (PES) and poly(ethylene‐__co__‐butene) (PEB) blends has been studied. A closed‐loop phase diagram was clearly observed in this weakly interacting system as the styrene content in the PES decreased to about 1 mol‐%. At high

## Abstract A new method has been developed to determine the probability of miscibility in binary polymer blends through hydrodynamic interaction. This is achieved by the measurement of the free volume content in blends of carefully selected systems—styrene acrylonitrile (SAN)/poly(methyl methacryl

Blends of two or more ethylene-styrene (ES) copolymers that differed primarily in the comonomer composition of the copolymers were studied. Available thermodynamic models for copolymer-copolymer blends were utilized to determine the criteria for miscibility between two ES copolymers differing in sty