Title of article
Effect of the driving pressure on the rate of thinning of microscopic foam films
Author/Authors
Angarska، نويسنده , , Jana K. and Manev، نويسنده , , Emil D.، نويسنده ,
Issue Information
روزنامه با شماره پیاپی سال 2003
Pages
8
From page
27
To page
34
Abstract
The effect of the driving pressure on the rate of thinning of microscopic foam films from aqueous solutions of nonionic [C12(EO)8] and anionic [DDBS] surfactants was studied experimentally. At the ionic strengths of the solutions used (0.024 or 0.1 mol l−1) the driving pressure was mainly governed by the capillary pressure, while the disjoining pressure was negligible, especially at a large film thickness. The studied films were obtained in glass cells of different radii (Rc) of the holder in which the film was formed. The values of the drainage constants ratios (α2/α1), experimentally obtained for films under different experimental conditions were compared to the theoretically calculated ratios of the thinning rates (V2/V1). The deviations from the classical Reynolds law, obtained experimentally, correspond to the dependence of the rate of thinning on driving pressure required by the theoretical approach of Manev–Tsekov–Radoev. The results confirm the conclusions of the approach, accounting for the effect of the film thickness non-homogeneity on the rate of thinning.
Keywords
anionic surfactants , Foam film , Film thinning , Driving pressure , Surface Tension , Nonionic
Journal title
Colloids and Surfaces A Physicochemical and Engineering Aspects
Serial Year
2003
Journal title
Colloids and Surfaces A Physicochemical and Engineering Aspects
Record number
1786396
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