Journal
COMPOSITES PART A-APPLIED SCIENCE AND MANUFACTURING
Volume 164, Issue -, Pages -Publisher
ELSEVIER SCI LTD
DOI: 10.1016/j.compositesa.2022.107279
Keywords
B; Flame retardancy; Impact behaviour; A; Nanocomposites; Thermosetting resin
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A novel multifunctional nano flame retardant was successfully synthesized and incorporated into unsaturated polyester resin nanocomposites, demonstrating excellent thermal hazard suppression efficiency and the ability to suppress toxic smoke, while also improving impact strength and mechanical properties.
The fire and toxic smoke hazards of polymer combustion and the weak oxidation resistance of pure black phosphorus nanosheets (BPNSs) are hot and difficult issues. Here, triazinylsilane and Co(OH)2 nanoflowers are sequentially encapsulated on the surface of BPNSs to generate a novel multifunctional flame retardant (BP@SiO2- N@Co(OH)2), and incorporated into the unsaturated polyester resin (UPR). Specifically, with the addition of 2 wt % BP@SiO2-N@Co(OH)2 , the nanocomposite exhibits superior thermal hazard suppression efficiency relative to previous related work. In particular, BP@SiO2-N@Co(OH)2 exhibits a superior ability to suppress toxic smoke than BPNSs, with a 42.3 % reduction in total smoke production (TSP) at 2 wt% flame retardant content. In addition, UPR with 0.5 wt% BP@SiO2@-N@Co(OH)2 achieves 76.5 % increases in impact strength, revealing excellent mechanical properties. Therefore, a novel multifunctional nano flame retardant is successfully syn-thesized and provided an innovative strategy for the preparation of multifunctional UPR nanocomposites.
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