The dependence of viscoelastic flow properties on the structure for styrene-butadiene copolymers |
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Authors: | S. Ramachandran E.B. Christiansen |
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Affiliation: | Department of Chemical Engineering, University of Utah, Salt Lake City, Utah 84112 U.S.A. |
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Abstract: | The flow properties for 300 kg/m3 solutions of four-arm, star-branched random and block styrene-butadiene-styrene copolymers in n-butylbenzene are presented. The viscosity, η, first and second normal stress differences, N1 and N2, and the steady sher compliance, J, were determined as a function of the shear rate from cone-plate shearing data obtained with a stiffened Model R17 Weissenberg Rheogoniometer. The normal stress differences were determined from total normal force and plate pressure distribution data. Four sensitive, miniature, variable-capacitance pressure transducers mounted in the 7.4-cm plate with their approximately 2.4 mm in diameter pressure-sensing diaphragms flush with the plate surface provided data for the pressure distribution on the plate. In general, the data extend from the zero shear-rate viscosity region somewhat into the shear thinning region. Based on limited data, the zero shear viscosities for the random copolymers increased with (M3)3.2, whereas those for the 28% block and 38% block polymers increased with (Mw)?;6, respectively. The latter high exponents are believed to be a consequence of a network with junctions formed by dispersed phase polystyrene block domains. The sign for N2 was opposite that of N1 and the ratio N2/M1 for all of the star copolymers averaged –0.214 with a standard deviation of 1.5%. This value is within ±1% of the ratios for tetrachain polybutadienes and polystyrenes and is significantly lower than the –0.29 for linear polybutadiene and polystyrene solutions in normal butylbenzene. The N2/N1 ratio did not vary significantly over the shear-rate range investigated. |
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