Macromolecular Research

The Polymer Society of Korea (한국고분자학회)
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Relation between Huggins Constant and Compatibility of Binary Polymer Mixtures in the Aqueous Ternary Systems

  • Isamu Inamura (Department of Material Science, Faculty of Science and Engineering, Shimane University) ;
  • Makoto Kittaka (Department of Material Science, Faculty of Science and Engineering, Shimane University) ;
  • Tatsuya Aikou (Department of Material Science, Faculty of Science and Engineering, Shimane University) ;
  • Kazuhiko Akiyama (Department of Material Science, Faculty of Science and Engineering, Shimane University) ;
  • Tomoyuki Matsuyama (Department of Material Science, Faculty of Science and Engineering, Shimane University) ;
  • Masatsugu Hiroto (Department of Material Science, Faculty of Science and Engineering, Shimane University) ;
  • Hirade, Ken-ichi (Department of Material Science, Faculty of Science and Engineering, Shimane University) ;
  • Yuji Jinbo (Graduate School of Science and Engineering, Yamagata University)
  • Published : 2004.04.01
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Abstract

We have classified a number of aqueous ternary systems containing two different polymers into three types by focusing on the deviation of the Huggins constant k'from the additivity line. Systems of type I have negative deviations of k'; the repulsive interaction between the two different polymers dominates. In systems of type II, k' almost follows the additivity relation; the repulsive and attractive interactions between the two different polymers are balancing. Type III systems have positive deviations of k'; the attractive interactions are relatively dominant. This classification of systems is supported by the fact that the positive and negative deviations of k' from the additivity line also correspond to the sign of interaction parameter between polymer 2 and 3, Δb$\_$23/. Furthermore, we have verified the relatively high compatibility between dextran and poly(vinyl alcohol) by determining the binodal concentration of a liquid-liquid phase separation for a water/dextran/poly(vinyl alcohol) system, which is classified as type III. Thus, we found that the compositional dependence of k' closely relates to the compatibility of binary polymer mixtures in aqueous ternary systems.

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References

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