Densities have been measured for 11 binary mixtures of ethane-1,2-diol (ED, component 1) + 1,2-dimethoxyethane (DME, component 2), whose composition covers the whole miscibility field (0 less than or equal to X(1) less than or equal to 1), at 19 temperatures in the range -10 less than or equal to t/degrees C less than or equal to +80. The experimental data were used to test some empirical relationships of the general form rho = rho(t), rho = rho(X(1)) e rho = rho(t,X(1)). Furthermore, the experimental densities have been converted into the corresponding excess molar volumes (V-E), which have been discussed and interpreted in terms of the specific intermolecular interactions. The V-E against X(2) plots suggest the presence at each temperature of a more stable heteroaggregated complex species, at a stoichiometric ratio ED:DME = 2:1.
Volumetric behaviour of the ethane-1,2-diol+1,2-dimethoxyethane binary solvent system / Franchini, Giancarlo; Marchetti, Andrea; C., Preti; Tassi, Lorenzo. - In: ANNALI DI CHIMICA. - ISSN 0003-4592. - STAMPA. - 86:(1996), pp. 357-367.
Volumetric behaviour of the ethane-1,2-diol+1,2-dimethoxyethane binary solvent system
FRANCHINI, Giancarlo;MARCHETTI, Andrea;TASSI, Lorenzo
1996
Abstract
Densities have been measured for 11 binary mixtures of ethane-1,2-diol (ED, component 1) + 1,2-dimethoxyethane (DME, component 2), whose composition covers the whole miscibility field (0 less than or equal to X(1) less than or equal to 1), at 19 temperatures in the range -10 less than or equal to t/degrees C less than or equal to +80. The experimental data were used to test some empirical relationships of the general form rho = rho(t), rho = rho(X(1)) e rho = rho(t,X(1)). Furthermore, the experimental densities have been converted into the corresponding excess molar volumes (V-E), which have been discussed and interpreted in terms of the specific intermolecular interactions. The V-E against X(2) plots suggest the presence at each temperature of a more stable heteroaggregated complex species, at a stoichiometric ratio ED:DME = 2:1.Pubblicazioni consigliate
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