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Fire-retardant anti-microbial robust wood nanocomposite capable of fire-warning by graded-penetration impregnation

Wenbo Che, Zehui Li, Siqi Huo, Toan Dinh, Min Hong, Cristián Maluk, Youming Yu, Yanjun Xie

2024Composites Part B Engineering26 citationsDOIOpen Access PDF

Abstract

Wood, renowned for its sustainability, specific strength , and thermal insulation , stands as a highly sought-after sustainable structural material. However, the inherent flammability , decay susceptibility, and inadequate mechanical strength hinder its practical applications in high-rise buildings. Here, we report a groundbreaking solution to fabricate multi-functional fire-retardant wood (M-FRW) through a coupled delignification/impregnation procedure followed by densification treatment. The GO/BA created a hybridized network on the M-FRW surface, while BA molecules penetrated the wood cell. As-created M-FRW exhibits a superior flame retardancy due to the physical barrier and catalytic charring effect of GO/BA, as reflected by an ultrahigh limiting oxygen index value of >75 % and an 85 % reduction in the peak of heat release rate compared to natural wood. Furthermore, the GO/BA layer of M-FRW has a sensitive fire alarm response and ultralong alarm time (∼11280 s). More impressively, M-FRW exhibits an exceptional ability to inhibit decay fungi, mold fungi, and common bacteria due to the superimposed anti-microbial effect of GO and BA . Additionally, M-FRW shows desirable mechanical and thermal insulation properties . This work provides a facile strategy to fabricate a multi-functional advanced wood nanocomposite , making them hold great potential for various engineering applications , such as intelligent buildings .

Topics & Concepts

Fire retardantMaterials scienceComposite materialNanocompositeCharringFlame spreadFlammabilityCarbonizationLimiting oxygen indexThermal insulationChemical engineeringCombustionPyrolysisLayer (electronics)Organic chemistryScanning electron microscopeChemistryEngineeringCharFlame retardant materials and propertiesGraphene and Nanomaterials ApplicationsPolymer composites and self-healing
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