Solvent-induced morphological change of microporous hollow fiber membranes |
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Authors: | Jun Kamo Takayuki Hirai and Kensuke Kamada |
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Institution: | Central Research Laboratory, Mitsubishi Rayon Co. Ltd., Miyuki-cho 20-1, Otake, Hiroshima 739-06 Japan |
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Abstract: | Microporous polyethylene hollow fiber membranes (EHF-1 and EHF-2) were subjected to solvent treatment, and the effects of this treatment on membrane morphology and permeating properties were studied. Membranes treated with various organic solvents exhibited enhanced permeability, enlarged pore size, and increased shrinkage in the longitudinal direction. These phenomena were found to depend on the surface tension of the solvent: the higher the surface tension of the solvent, the larger the change in morphology and permeation of the membrane. A mechanism to account for the effects of solvent treatment on the morphology of the membrane is proposed taking into consideration the influence of the type of solvent used for treatment. The enhanced morphological and permeation changes are ascribed to the formation of liquid bridges between two microfibrils of the membrane during drying followed by the deformation and adhesion of the adjacent microfibrils based on the surface tension of the solvent. |
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Keywords: | microporous hollow fiber membranes solvent treatment surface tension microfibrils liquid bridge |
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