Abstract
Measurements of the surface tension of the aqueous solution of SDDS mixture with fluorocarbon surfactants (FC) were carried out and considered in light of the surface tension of aqueous solutions of individual surfactants. Similar analyses were made for many other aqueous solutions of binary and ternary mixtures, taking into account the literature data of the surface tension of aqueous solutions of TX100, TX114, TX165, SDDS, SDS, CTAB, CPyB and FC. The possibility of predicting the surface tension of the aqueous solution of many surfactant mixtures from that of the mixture components using both the Szyszkowski, Fainerman and Miller and Joos concepts was analyzed. The surface tension of the aqueous solutions of surfactant mixtures was also considered based on the particular mixture component contribution to the water surface tension reduction. As a result, the composition of the mixed surface layer at the solution–air interface was discussed and compared to that which was determined using the Hua and Rosen concept. As follows from considerations, the surface tension of the aqueous solution of binary and ternary surfactant mixtures can be described and/or predicted.
Highlights
Application of surfactants is very often due to their adsorption at the water–air interface
In the case of surfactant mixtures, the magnitude of the water surface tension reduction by the mixed monolayer formed at the water–air interface depends on the composition of the mixture in the bulk phase [7,8,9,10]
The literature does not present the application of the Szyszkowski equation to predict the surface tension of the aqueous solution of surfactant mixtures based on the data of single surfactants being components of the mixture
Summary
Application of surfactants is very often due to their adsorption at the water–air interface. In the case of surfactant mixtures, the magnitude of the water surface tension reduction by the mixed monolayer formed at the water–air interface depends on the composition of the mixture in the bulk phase [7,8,9,10]. The literature reports many concepts for prediction and/or description of the changes in the surface tension of the aqueous solution of surfactant mixtures as a function of the concentration in the bulk phase [11,12,13,14]. The literature does not present the application of the Szyszkowski equation to predict the surface tension of the aqueous solution of surfactant mixtures based on the data of single surfactants being components of the mixture
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