Melt rheology of hyperbranched‐polystyrene synthesized with multisite macromonomer |
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Authors: | Masataka Sugimoto Takumi Koizumi Takashi Taniguchi Kiyohito Koyama Katsuhiro Saito Daigo Nonokawa Tsuyoshi Morita |
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Institution: | 1. Graduate School of Science and Engineering, Yamagata University, Yonezawa 992‐8510, Japan;2. Central Research Laboratories, DIC Corporation, Sakato 631, Sakura 285‐8668, Japan |
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Abstract: | Melt rheological behaviors of hyperbranched‐polystyrene (PS) copolymerized by dendric macromonomer technique are presented. The time–temperature superposition principle was applicable to the hyperbranched‐PS. The branched‐PS showed slightly lower zero‐shear viscosity in comparison with linear PS regardless of a presence of a number of branches expected from the dendric macromonomer technique. Although the influence of use of multimethacryloyl macromonomer in the polymerization process was marginal for linear viscoelastic regime, nonlinear shear and uniaxial elongational flows showed distinct differences between linear and branched‐PS. The strain dependence of the damping function became weak as increase of macromonomer content. The branched‐PS exhibited the growing elongational viscosity function comparing with linear PS. This prominent effect on the elongational flow behavior can be explained by the molecular architecture of the branched‐PS. © 2009 Wiley Periodicals, Inc. J Polym Sci Part B: Polym Phys 47: 2226–2237, 2009 |
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Keywords: | hyperbranched macromonomers melt rheology viscoelastic properties viscosity |
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