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Effects of Solvent and Degree of Polymerization on the Rate of Intermolecular Formalization of Ethylene-Vinyl Alcohol Copolymer

Intermolecular formalization of ethylene-vinyl alcohol copolymers (EVOH) was studied kinetically till the gel point in dimethyl sulfoxide-water mixtures on the basis of Charlesby's theory related to gelation of polymer. At an EVOH concentration ([OH]) below 0.6 mol/l, the rate was nearly propor...

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Published in:	KOBUNSHI RONBUNSHU 1995/11/25, Vol.52(11), pp.698-702
Main Author:	YONEZU, Kiyoshi
Format:	Article
Language:	Japanese
Subjects:	Charlesby's Theory Ethylene-Vinyl Alcohol Copolymer Excluded Volume Effect Formalization Gel Point Intermolecular Formalization Kinetics
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creator	YONEZU, Kiyoshi
description	Intermolecular formalization of ethylene-vinyl alcohol copolymers (EVOH) was studied kinetically till the gel point in dimethyl sulfoxide-water mixtures on the basis of Charlesby's theory related to gelation of polymer. At an EVOH concentration ([OH]) below 0.6 mol/l, the rate was nearly proportional to [OH] and the number of polymer molecules, and was fast in a poor solvent. But above 0.6 mol/l of [OH] the rate was fast in a good solvent and increased with increasing degree of polymerization. These results showed that the rate-determining step was the collision process between a hemiformal group of one polymer molecule and a hydroxyl group of another molecule, and the rate was affected by the excluded volume effect and accelerated with the formation of polymer entanglement.
doi_str_mv	10.1295/koron.52.698
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issn	0386-2186 1881-5685
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source	J-STAGE (Free Access)英語
subjects	Charlesby's Theory Ethylene-Vinyl Alcohol Copolymer Excluded Volume Effect Formalization Gel Point Intermolecular Formalization Kinetics
title	Effects of Solvent and Degree of Polymerization on the Rate of Intermolecular Formalization of Ethylene-Vinyl Alcohol Copolymer
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