Covalent functionalization of graphene oxide with flame retardant and its effect on thermal stability and flame retardancy of epoxy composites

Weizhao Hu, Lei Song, Jian Wang, Y. Hu, Ping Zhang
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引用次数: 7

Abstract

In order to improve the dispersion and fire retardant property in epoxy resin (EP), graphene oxide (GO) was functionalized via surface modification by a flame retardant which was synthesized by the reaction of methyl dichlorophosphate and 10-(2,5-dihydroxyl-phenyl)-9,10-dihydro-9-oxa-10-phosphaphenan-threne-10-oxide (DOPO-BQ). The property of functionalized GO (FGO) was characterized by fourier transform infrared spectroscopy, H- and P- nuclear magnetic resonance, X-Ray photoelectron spectroscopy and thermogravimetric analysis (TGA). Series different ratios of GO- and FGO- epoxy nanocomposites were obtained by in situ polymerization. The incorporation of FGO enhanced the thermal stability and flame retardancy of epoxy nanocomposites effectively. The thermal properties of the nanocomposites were investigated by TGA test in nitrogen atmosphere, indicating that FGO can improve the char residues. The flame retardancy of the nanocomposites was characterized by cone calorimeter test. The results showed that the incorporation of 2 wt.% FGO into EP decreased the value of peak heat release rate, total heat release, average effective heat of combustion, peak values of the CO release rate and CO2 release rate by 25%, 28%, 29.5%, 27% and 29%, respectively. This work confirms that the FGO is an effective solution for improving the thermal stability and flame retardancy of epoxy resins.
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氧化石墨烯与阻燃剂的共价功能化及其对环氧复合材料热稳定性和阻燃性的影响
为了提高氧化石墨烯在环氧树脂(EP)中的分散性能和阻燃性能,采用二氯磷酸甲酯与10-(2,5-二羟基苯基)-9,10-二氢-9-氧杂-10-磷菲- 3 -10-氧化物(DOPO-BQ)反应合成的阻燃剂对氧化石墨烯(GO)进行了表面改性。利用傅里叶变换红外光谱、H-核磁共振、P-核磁共振、x射线光电子能谱和热重分析(TGA)对功能化氧化石墨烯(FGO)的性质进行了表征。采用原位聚合法制备了一系列不同比例的氧化石墨烯-和氧化石墨烯-环氧纳米复合材料。氧化石墨烯的加入有效地提高了环氧纳米复合材料的热稳定性和阻燃性。在氮气气氛中对复合材料的热性能进行了TGA测试,结果表明FGO可以改善炭渣的残留。采用锥量热法对复合材料的阻燃性能进行了表征。结果表明,在EP中加入2 wt.%的FGO,峰值放热率、总放热量、平均有效燃烧热、CO放热率峰值和CO2放热率分别降低了25%、28%、29.5%、27%和29%。这一工作证实了FGO是提高环氧树脂热稳定性和阻燃性的有效解决方案。
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