Effect of adsorbed water on the critical surface tension of wetting on metal surfaces

Contract angles of a variety of pure nonhydrophilic liquid polar and nonpolar compounds, covering a wide range of surface tensions, were measured on clean smooth surfaces of fourteen metals and one metal oxide. At 0.6% relative humidity (RH) and 95% RH, each of these high-energy, solid surfaces was...

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Bibliographic Details
Published in:Journal of colloid and interface science 1968-01, Vol.28 (2), p.243-249
Main Authors: Bernett, Marianne K, Zisman, W.A
Format: Article
Language:English
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Summary:Contract angles of a variety of pure nonhydrophilic liquid polar and nonpolar compounds, covering a wide range of surface tensions, were measured on clean smooth surfaces of fourteen metals and one metal oxide. At 0.6% relative humidity (RH) and 95% RH, each of these high-energy, solid surfaces was converted at 20°C to one of much lower critical surface tension of wetting (γ c) by the physical adsorption of a thin film of water. The formation of only a fraction of a monolayer at 0.6% RH decreased γ c to about 45 dynes/cm for each metal surface; additional water adsorption at 95% RH to form a more condensed film further lower γ c to a common value of 38 dynes/cm. Since γ c values were nearly identical for each surface at each extreme of the RH, the surface energy of these hydrophilic solids must be independent of the constitution of the underlying solid substrate and dependent only upon the surface concentration of the adsorbed water.
ISSN:0021-9797
1095-7103
DOI:10.1016/0021-9797(68)90126-4