Superabsorbent Fibers for Comfortable Disposable Medical Protective Clothing

材料科学 复合材料 透气比表面积 聚乙烯醇 聚丙烯 复合数 水分 织物 纺纱 机织物 高吸水性高分子 聚合物 图层(电子)
作者
Lin Yang,Hong Liu,Shuai Ding,Jiawei Wu,Yan Zhang,Zhongzhen Wang,Lili Wei,Mingwei Tian,Guangming Tao
出处
期刊:Advanced Fiber Materials [Springer Science+Business Media]
卷期号:2 (3): 140-149 被引量:67
标识
DOI:10.1007/s42765-020-00044-w
摘要

Disposable medical protective clothing for 2019-nCoV mainly consists of stacked layers with nanopore films, polymer coated nonwoven fabrics and melt-blown nonwoven fabrics against anti-microbial and anti-liquid penetration. However, such structures lack moisture permeability and breathability leading to an uncomfortable, stuffy wearing experience. Here, we propose a novel medical protective clothing material with a superabsorbent layer to enhance moisture absorption. Poly(acrylic acid-co-acrylamide)/polyvinyl alcohol superabsorbent fibers (PAAAM/PVA fibers) were prepared via wet spinning. And the superabsorbent composite layer was stacked from PAAAM/PVA fibers, bamboo pulp fibers (BPF) and ethylene-propylene side by side fibers (ESF). The novel disposable medical protective composite fabric was obtained through gluing the superabsorbent layer to the inner surface of strong antistatic polypropylene nonwoven fabric. The resultant composite fabric possesses excellent absorption and retention capacity for sweat, up to 12.3 g/g and 63.8%, and a maximum hygroscopic rate of 1.04 g/h, higher than that of the conventional material (only 0.53 g/h). The moisture permeability of the novel material reached 12,638.5 g/(m2 d), which was 307.6% of the conventional material. The novel material can effectively reduce the humidity inside the protective clothing and significantly improve the comfort of medical staff.
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