RESUMEN
Talc samples in both sheet and powder form are studied by adsorption calorimetry and adsorption isotherm techniques. A model is used to determine the solid surface energy, the solid surface tension and the dispersive, acidic, and basic components of these terms. These results are introduced in an approximate equation relating adsorption to contact angle data. Experimental contact angles are in correct agreement with this approach. The Neumann equation of state is used to fit the data and discussed. It appears as a numerical form of the general equation taking into account gas adsorption and film pressure. Behaviors of talc in contact with liquids do not appear very different whether the solid is in sheet or powder form.
RESUMEN
Three talc samples have been studied by adsorption and immersion methods after a classical characterization of their properties. The combination of adsorption isotherms and of immersion measurements allows the calculation of enthalpies and entropies of adhesion. The studied talcs are characterized as "middle energy" solids. The differences between the particle shapes of the different samples are shown to be of great importance, indicating a linkage between cristallinity and surface properties. The whole results are explained by the influence of intermolecular forces such as acid-base interactions in the interfacial layer. Copyright 1997 Academic Press. Copyright 1997Academic Press