Effects of evaporation on contact angles on polymer surfaces

The effect of varying initial liquid-solid contact angle on the evaporation of single droplets of water deposited on a stainless steel surface is studied using both experiments and numerical modeling. Contact angle is controlled in experiments by adding varying amounts (100 and lO00ppm) of a surfact

Contact angles of pure and binary liquid mixtures measured where the surrounding vapor is not in equilibrium with the liquid are reviewed. Two physical situations were examined which simulated conditions of distillation and condensation. An explanation was afforded as to why at low concentrations wh

can exhibit unusually large hysteresis, an additional factor Wetting experiments were performed to determine how contact may influence the contact angles. The vertical component angles and their hysteresis change with the mechanical properties of the liquid surface tension can deform the underlying

An experimental investigation was conducted to understand the effect of solid properties on dynamic wetting. Using a liquid tank method, the wetting behavior of silicone oil over glass, aluminum, and stainless steel surfaces was measured. For all three surfaces, the dynamic contact angles disagreed