Archives of Acoustics,
4, 1, pp. 73-86, 1979
Complexity investigation in solutions of ZnCl2 and LiCi in water using an acoustic method*
The formation of complex ions brings about in water solutions a destruc¬tion of the water structure, thus leading to the formation of a new structure in the solution which is considerably less cohesive than the original water structure.
The investigations performed with zinc chloride and lithium chloride solutions in water indicate that those solutions in which the ratio of zinc atoms to chlorine atoms is near to 1 : 4, i.e. near to the ratio for the formation of ZnC142, have maximum adiabatic compressibility, minimum hydration number and minimum viscosity. Measurements of the absorption coefficient of ultriisonic waves have shown that the process of relaxation of the formation and disinte¬gration of complex ions with a relaxation time of 10-8 s exerts a predominating influence on the sound absorption.
The investigations performed with zinc chloride and lithium chloride solutions in water indicate that those solutions in which the ratio of zinc atoms to chlorine atoms is near to 1 : 4, i.e. near to the ratio for the formation of ZnC142, have maximum adiabatic compressibility, minimum hydration number and minimum viscosity. Measurements of the absorption coefficient of ultriisonic waves have shown that the process of relaxation of the formation and disinte¬gration of complex ions with a relaxation time of 10-8 s exerts a predominating influence on the sound absorption.
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