Preparation and Properties of an Efficient Purification Material for Personal Protection
Gaofenzi Cailiao Kexue Yu Gongcheng/Polymeric Materials Science and Engineering
; 39(1):106-112, 2023.
Article
Dans Chinois
| Scopus | ID: covidwho-20244929
ABSTRACT
At present, the filtration of virus and other small particles in the air by meltblown cloth produced by electret treatment mainly depends on its electrostatic adsorption mechanism. However, because the surface charge of melt blown fabric can not be maintained for a long time, it can not maintain high efficiency filtration for a long time. Therefore, there is no guarantee for the medical staffs to not be infected by COVID-19. Therefore, it is necessary to improve the mechanical filtration efficiency of melt blown fabric in the situation of an electric charge loss. In this paper, nylon 6 (PA6) nanofibers were electrospun on melt blown cloth by electrospinning technology, and a sandwich material with melt blown cloth as surface layer and PA6 nanofibers as middle layer was made by hot- pressing technology;the surface morphology, thermal and mechanical properties of the sandwich material were characterized, and its filtration performance was tested. The experimental results show that the surface integrity of the sandwich material is high, and the diameter of nanofibers can reach about 67 nm;without the electret treatment, the filtration efficiency of the sandwich material for particles in an size of 0.2 μm is more than 95%,while the filtration efficiency of non-woven fabric is zero;the filtration resistance of the material is about 284 Pa, which is suitable for personal protection. © 2023 Chengdu University of Science and Technology. All rights reserved.
electrospinning; filtration performance; melt blown cloth; sandwich material; Efficiency; Electrets; Electric losses; Hot pressing; Morphology; Nanofibers; Surface morphology; Viruses; Filtration efficiency; Melt blown fabrics; Meltblown; Nylon 6 nanofibers; Personal protection; Property; Sandwich materials; Small particles
Texte intégral:
Disponible
Collection:
Bases de données des oragnisations internationales
Base de données:
Scopus
langue:
Chinois
Revue:
Polymeric Materials Science and Engineering
Année:
2023
Type de document:
Article
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