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Calculation of phase diagrams not requiring the derivatives of the Gibbs energy demonstrated for a mixture of two homopolymers with the corresponding copolymer

✍ Scribed by Roland Horst

Publisher: John Wiley and Sons
Year: 1995
Tongue: English
Weight: 640 KB
Volume: 4
Category: Article
ISSN: 1022-1344
DOI: 10.1002/mats.1995.040040304

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✦ Synopsis

A method is presented which allows the calculation of phase diagrams (spinodal, binodal and tie lines) on the basis of the Gibbs energy of mixing AG. No derivatives of AG with respect to the composition variables are required. This method is particularly useful in cases where the composition dependence of AG is very complex and no analytical representation of the derivatives can be given. The method is applied to a ternary mixture of two homopolymers with a copolymer consisting of the same monomers. The sequence distribution of the copolymer is kept constant between random and purely alternating, and phase diagrams are calculated for different chemical compositions of the copolymer. The complex phase separation behavior resulting for a 1 : 1 copolymer becomes much simpler as one monomeric unit starts to predominate in the copolymer.

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## Abstract A method for the calculation of phase diagrams (tie lines and binodal, spinodal, critical points and their stability) based exclusively on the Gibbs energy of mixing with no need of its derivatives with respect to the composition variables is extended to multinary mixtures for any numbe