Mixtures of liquid-crystalline polymers |
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Authors: | P. Maïssa P. Sixou |
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Affiliation: | U. A. 190, Physique de la Matière Condensée , Parc Valrose, 06034 , Nice Cedex , France |
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Abstract: | A density-functional expansion method is used to derive the free energy of a polymer mixture. The expression obtained includes the entropy of mixing, the entropy of configuration of the chains and the interactions (both isotropic and anisotropic ones). The chains are modelled as interacting elastic lines (bend curvature). The method is very general, and we only focus our attention on binary mixtures. The phase diagram and the order parameters are calculated. We show some results for two types of mixtures: a nematic polymer in a non-mesomorphic particle (polymer or solvent) and in another nematic liquid crystal (small-molecule or polymer). We discuss the influence of the molecular weights, the persistence length and the interactions on the phase separation. |
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