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Analysis of the Temperature and Composition Dependence of Viscosimetric Properties of 2-Butanone + 2-Butanol Solvent Mixtures

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Abstract

Kinematic viscosities were measured for 2-butanone + 2-butanol binary liquid mixtures with a capillary Ubbelohde routine viscometer in the temperature range from 273.15 to 353.15 K at atmospheric pressure, and covering the whole miscibility field (0⩽x i ⩽1). Experimental data have been correlated by means of different empirical or semiempirical relationships, such as ν=ν(T), ν=ν(x i ), and ν=ν(T, x i ). Viscosity deviations, Δν, from ideal behavior are negative at all experimental conditions, confirming that structure breaking effects prevail in the liquids. Furthermore, the thermodynamics of viscous flow and excess Gibbs energy of activation of viscous flow, G*E, have been calculated. As an alternative and complementary approach to such investigations, the fluidity (ϕ) of this binary system has been analyzed by the modified—Batschinski theory. The results are discussed in terms of the specific molecular interactions between the mixture components.

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Correspondence to Lorenzo Tassi.

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Faranda, S., Foca, G., Marchetti, A. et al. Analysis of the Temperature and Composition Dependence of Viscosimetric Properties of 2-Butanone + 2-Butanol Solvent Mixtures. J Solution Chem 33, 1181–1197 (2004). https://doi.org/10.1007/s10953-004-7135-1

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