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Heng Zhang,Qi Zhen,Jing-Qiang Cui,Huan-Wei Sun,Rang-Tong Liu,Yi-Feng Zhang,Yong Liu 한국섬유공학회 2021 Fibers and polymers Vol.22 No.1
As a stable chemical material, polypropylene (PP) micro-nanofibrous membranes are widely used in medical andhealth care. However, PP fibrous membranes with single nano scale diameter are conducive to high packing density, whichresults in large flow resistance across the membrane. Therefore, to improve the material’s water and air permeability,polyethylene glycol (PEG), an incompatible polymer with PP, was introduced by blending in a modified method using a meltblowing process. This proposed approach allows large 10 μm diameter fibers to be entangled with fine 300 nm diameterfibers to produce highly porous binary structured fibrous membranes with small pore size. Because of its binary structure, theair permeability in the material reached 569.56 mm/s and the water vertical velocity was 70.15 mm/s. Additionally, the threedimensionalnumerical calculations suggested that the high porosity and binary structure were key to enhancing waterpermeability in the fibrous membranes. These binary structured micro-nanofibrous membranes are expected to be used forfiltration, separation, health care, oil/water separation, medical wound dressings, and other applications.
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