Enhanced flame resistance of cellulose aerogel by ammonium polyphosphate for heat insulation

纤维素 材料科学 聚磷酸铵 气凝胶 可燃性 热稳定性 复合材料 热重分析 化学工程 热导率 保温 环氧氯丙烷 阻燃剂 图层(电子) 工程类
作者
Luon Tan Nguyen,Bao Phan Le,Do Nguyen Hoang Nga,Assoc.Prof. Dr Phong Mai Thanh,Assoc.Prof. Dr Thang Le Van,Assoc.Prof. Dr Kien Le Anh,Assoc.Prof.Dr Phung Le Thi Kim
出处
期刊:Tạp chí Nghiên cứu Khoa học Kỹ thuật và Công nghệ Quân sự [Academy of Military Science and Technology]
卷期号: (VITTEP): 15-22 被引量:3
标识
DOI:10.54939/1859-1043.j.mst.vittep.2022.15-22
摘要

Cellulose aerogels are a potential candidate for heat insulation, but one of their drawbacks is high flammability hindering their applications in practice. This study synthesized cellulose aerogels from microfibrillated cellulose fibers (MFC) extracted from discarded pineapple leaves. The procedure started with simply mixing the extracted fibers with polyamide amine-epichlorohydrin (PAE) as a chemical crosslinker and ammonium polyphosphate (APP) (10-20%) as a green and effectively flame-resistant additive, followed by freeze-drying. The produced aerogels are characterized in terms of their morphology, thermal stability and conductivity, and flame resistance via advanced and standardized methodologies including Scanning Electron Microscopy (SEM), Thermogravimetric Analysis (TGA), thermal conductivity measurement by a heat flow meter, and UL94 horizontal burning test. The flame-resistant cellulose aerogels exhibit ultra-low density (25.5-26.8 mg/cm3), high porosity (98.0-98.2%), excellent heat insulation (35.9-36.7 mW/m۰K), and are completely flame-resistant. In addition, the varied APP content (10-20%) shows little effect on the density, heat conductivity, and thermal stability of the flame-resistant cellulose aerogels in comparison with that of the neat cellulose aerogel. Based on the findings, the synthesized flame-resistant cellulose aerogels are considered a promising bio-based heat insulation material.
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