Thermodynamics of ternary mixtures of random copolymers

A most general formalism based on the Lattice‐Fluid theory of polymer solutions is presented for multicomponent mixtures of random copolymers which may consist of any number of different types of monomers. Particular emphasis is given to the phase stability in these mixtures. Equations for the spino...

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Bibliographic Details
Published in:Die Makromolekulare Chemie 1989-05, Vol.190 (5), p.1103-1117
Main Authors: Dafniotis, Petros, Karayianni, Eleni, Panayiotou, Constantinos
Format: Article
Language:English
Subjects:
Applied sciences
Exact sciences and technology
Organic polymers
Physicochemistry of polymers
Properties and characterization
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Summary:A most general formalism based on the Lattice‐Fluid theory of polymer solutions is presented for multicomponent mixtures of random copolymers which may consist of any number of different types of monomers. Particular emphasis is given to the phase stability in these mixtures. Equations for the spinodals and the critical points are presented. The formalism is subsequently applied to a number of interesting cases of ternary (co)polymer mixtures such as: mixtures of three random copolymers with the same monomers A and B but in different proportions (A m 1 B n 1 + A m 2 B n 2 + A m 3 B n 3) mixtures of homopolymers Am and Bn with the random copolymer Ai Bj, and mixtures of the random copolymers (A m 1 B n 1 + A m 2 B n 2 + A m 3 C n 3). The effect of temperature on the phase behavior of these systems is discussed. The agreement of theoretical predictions with available experimental information is satisfactory. Because of its simplicity, the model may be used as a tool for studying multicomponent mixtures exhibiting lower or upper critical solution temperature behavior.
ISSN:0025-116X
0025-116X
DOI:10.1002/macp.1989.021900518