The effects of surface energy and roughness on the hydrophobicity of woven fabrics
2014
Shim, Myoung Hee | Kim, Jooyoun | Park, Chung Hee
The wetting behavior of a hydrophobic rough surface is investigated on a surface fabricated by applying low surface tension materials such as silicone or fluoropolymer to polyester woven fabric consisting of multifilament yarns. The roughness factor of various woven fabrics can be calculated by Wenzel’s and Cassie–Baxter’s equations. For the fabrics treated with silicone or fluoropolymer, the Cassie–Baxter model was applied, showing a level of agreement for the fabric specimens non-textured filament fibers between the predicted contact angles and the measured values. More precisely, the fabrics treated with silicone or fluoropolymer represent the transitional state between the Wenzel type and the Cassie–Baxter type; that is, the fractional contact area between the water and air f₂ is greater than zero, and the sum of the fractional contact areas for solid–water f₁ and air–water f₂ is greater than 1. A surface with lower energy and higher roughness gave f₁ + f₂ close to 1 with smaller f₁ and larger f₂, which resulted in a high contact angle.
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