A Comparison of the Work of Adhesion Obtained from Wetting and Vapor Adsorption Measurements |
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Authors: | Pauline N. Jacob John C. Berg |
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Affiliation: | Department of Chemical Engineering , University of Washington , Seattle, WA, 98195, USA |
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Abstract: | Some of the limitations to determining experimental values of the work of adhesion are discussed. Wetting measurements appear to provide the most direct means of assessing the work of adhesion for a solid-liquid system, but they require the formation of a finite contact angle by the liquid against the solid of interest, and the need for independent knowledge of the equilibrium spreading pressure of the liquid's vapor on the solid further limits their applicability. Vapor adsorption measurement using the technique of inverse gas chromatoraphy (IGC) provides a promising alternative means of determining the work of adhesion not subject to these limitations. The measurements are, furthermore, amenable to solids which are difficult to use with wetting measurements, e.g., those which are porous or granular. An attempt is made here to compare values of the work of adhesion determined using both wetting and vapor adsorption measurements. Good agreement is attained between the two methods for diiodomethane in contact with poly (vinyl chloride), poly (methyl methacrylate), and chemi-thermo-mechanical wood pulp fibers, suggesting that the technique of IGC is particularly well-suited for rapid determination of the work of adhesion. |
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Keywords: | Work of adhesion wetting contact angle inverse gas chromatography IGC equilibrium spreading pressure acid-base interactions |
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