Multilayer nonwoven fabrics for filtration of micron and submicron particles

Journal of Textile Engineering & Fashion Technology Pub Date : 2019-03-06 DOI:10.15406/jteft.2019.05.00185

G. Nallathambi, S. Evangelin, R. Kasthuri, D. Nivetha

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引用次数: 12

Abstract

Nonwoven fabrics are widely used for filtration of particles due to higher air permeability, better filtration performance and no slippage of yarn than woven filter media.2–5 Due to the random fibrous web of the nonwoven fabric, effective filtration was achieved. The filtration performance of the nonwoven fabric was influenced by thickness of the fabric, areal density and pore size. A majority of nonwoven fabrics are spun bonded and in general, the mechanically bonded nonwoven fabrics are thicker, with larger pore opening than thermal bonded nonwoven fabric. Needle punched nonwoven fabrics are used to filter coarse particles such as separations of coal, dust and chemical particles. Other nonwoven based on melt blown, spun bond and needle felting techniques are used in disposable cartridge, membrane and for food filtration. The mean flow pore diameter was achieved as for non-thermal bonded fabrics as 1-500 microns and it was reduced as 10-15 micron by thermal calendaring. Thermal bonded staple fibre nonwoven fabrics were developed for depth filtration and its performance was better than meltblown nonwoven fabric.6

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微米和亚微米颗粒过滤用多层非织造布

与机织过滤介质相比，非织造布具有透气性好、过滤性能好、纱线不打滑等优点，被广泛用于颗粒过滤。2-5由于无纺布的随机纤维网，达到了有效的过滤。非织造布的过滤性能受织物厚度、面密度和孔径的影响。大多数非织造布是纺纱粘合的，一般来说，机械粘合的非织造布比热粘合的非织造布更厚，孔径更大。针刺非织造布用于过滤粗颗粒，如煤、粉尘和化学颗粒的分离。其他非织造布基于熔喷、纺纱粘合和针刺毡技术，用于一次性药筒、膜和食品过滤。非热粘合织物的平均流动孔径为1-500微米，通过热压延将其减小为10-15微米。开发了热熔粘合短纤维非织造布用于深度过滤，其性能优于熔喷非织造布

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Journal of Textile Engineering & Fashion Technology

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