Bio-Based Nanofiber Membranes for Effective Air Filtration: Fabrication and Evaluation of Flame-Retardant Behavior, Mechanical Properties, and Filtration Performance
IF 4.6 3区 材料科学Q2 MATERIALS SCIENCE, MULTIDISCIPLINARY
Sepideh Keyvani, Farideh Golbabaei, Rasoul Esmaeely Neisiany, Oisik Das, Abbas Rahimi Foroushani, Saba Kalantary
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引用次数: 0
Abstract
Electrospun nanofibers can lower health risks linked to exposure to particulate matter pollutants. On the other hand, nonbiodegradable polymeric materials increase issues related to their disposal and the generation of hazardous microplastics. Hence, this research aims to develop a nanofibrous membrane filter composed of polyvinyl alcohol (PVA) as a biodegradable polymer, and boric acid (BA) using an electrospinning technique. This study investigates the effect of BA on fire behavior, mechanical properties, and filtration performance of the nanofiber membranes. The morphological results show that the samples containing BA have no beads on the nanofibers. Incorporating boric acid into PVA membranes can reduce peak release heat by ≈39%. Additionally, the nanofibers containing BA can offer enhanced mechanical properties of tensile strain (≈3.6%) and Young's modulus (up to ≈45%). The optimized BA/PVA nanofibers can also demonstrate superior filtration efficiency (above 99.9% for 300 nm particles) and a low-pressure drop (150 Pa at 5.3 cm s−1 airflow velocity). Therefore, PVA nanofibers containing BA can improve not only the fire behavior than those of pure PVA nanofibers, but also increase mechanical properties, and filtration performance.
静电纺纳米纤维可以降低与接触颗粒物质污染物有关的健康风险。另一方面,不可生物降解的聚合物材料增加了与其处置和产生有害微塑料有关的问题。因此,本研究旨在利用静电纺丝技术开发一种由生物可降解聚合物聚乙烯醇(PVA)和硼酸(BA)组成的纳米纤维膜过滤器。本研究考察了BA对纳米纤维膜的燃烧性能、力学性能和过滤性能的影响。形态学结果表明,含BA的样品在纳米纤维上没有珠状结构。在PVA膜中加入硼酸可使峰值放热降低约39%。此外,含有BA的纳米纤维可以提高拉伸应变(≈3.6%)和杨氏模量(高达≈45%)的力学性能。优化后的BA/PVA纳米纤维还具有优异的过滤效率(300 nm颗粒的过滤效率超过99.9%)和较低的压降(在5.3 cm s−1气流速度下为150 Pa)。因此,与纯PVA纳米纤维相比,含BA的PVA纳米纤维不仅可以改善其防火性能,而且可以提高其力学性能和过滤性能。
期刊介绍:
Macromolecular Materials and Engineering is the high-quality polymer science journal dedicated to the design, modification, characterization, processing and application of advanced polymeric materials, including membranes, sensors, sustainability, composites, fibers, foams, 3D printing, actuators as well as energy and electronic applications.
Macromolecular Materials and Engineering is among the top journals publishing original research in polymer science.
The journal presents strictly peer-reviewed Research Articles, Reviews, Perspectives and Comments.
ISSN: 1438-7492 (print). 1439-2054 (online).
Readership:Polymer scientists, chemists, physicists, materials scientists, engineers
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