Masahiko Ohshiro scite author profile

Masahiko Ohshiro

3Publications

14Citation Statements Received

8Citation Statements Given

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Yamagata University

Publications

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Rheological properties of liquid crystalline solutions of ethyl celluloses with different molecular weight in m‐cresol

Suto

Ohshiro

Nishibori

et al. 1988

J of Applied Polymer Sci

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SynopsisSteady-state shear rheological properties of liquid crystalline solutions of four ethyl celluloses (ECs) were determined at a low shear rate (1 s-l) and at relatively high shear rates by using two rheometers (cone-plate and capillary types), and were compared with those of liquid crystalline hydroxypropyl cellulose (HPC). The effect of molecular weight (MW) on the viscoelastic behavior was also determined. The viscometric behavior of EC solutions was similar to that of HPC solutions: (1) with respect to temperature, the shear viscosity (q) at shear rate of 1 s-l exhibited a minimum (qfin) and a maximum (q,,,,), and the concentration-temperature superposition for q could be applied; (2) the behavior of q at relatively high shear rates as a function of shear rate or polymer concentration was typical of lyotropic liquid crystals. The MW dependence of qfin was greater than that of q , , for EC solutions. The behavior of the elastic parameters such as Bagley correction factor ( Y ) , entrance pressure drop (A Pent), and die swell (B) at relatively high shear rates for EC solutions was essentially similar to that for HPC solutions: (1) the shear rate or stress dependence of the elastic parameters was greatly dependent on whether the polymer solution was in a single phase or biphase; (2) with respect to concentration the elastic parameters showed a maximum and a minimum and the maximum or minimum point for each parameter was not always identical to each other. q for the isotropic or fully anisotropic solutions at a given concentration (C) increased, whereas q for the solutions in the vicinity of the biphasic region showed a minimum, with respect to MW. The slope of q at a given shear rate vs. CM, depended on shear rate, and this slope for the isotropic solutions appeared to be greater than that for fully anisotropic solutions. A& and Y at a given concentration showed either a monotonical increase or a maximum or minimum with MW, and this behavior was not fully consistent with that of q.B for the isotropic solutions increased and B's for both biphasic and fully anisotropic solutions were almost constant, with MW.

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Capillary Flow Properties of Lyotropic Liquid Crystalline Solution of Hydroxypropyl Cellulose in Acetic Acid

Suto

Ohshiro

Ito

et al. 1986

Nihon Reoroji Gakkaishi(Journal of the Society of Rheology, Jap

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Capillary rheometry of lyotropic liquid crystals of hydroxypropyl cellulose

Suto

Ohshiro

Ito

et al. 1987

Polymer

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