关键字：THERMAL-STABILITY; FUNCTIONALIZED GRAPHENE; FIRE; FLAMMABILITY; PHOSPHORUS; PHOSPHAPHENANTHRENE; NANOCOMPOSITES; RESISTANCE

摘要：It is still a great challenge to develop epoxy resin/glass fabric (EP/GF) composites with well-balanced en-hancements on flame retardancy and mechanical properties. Herein, a novel strategy that polyhydric SiO2 coating assistant to graft organophosphorus (DOPO) onto GF was developed for simultaneously improving flame retardancy and mechanical properties of EP composites. The grafting amount of DOPO could reach to 43.64 wt% via the helpful bridging of polyhydric SiO2, so that EP composites displayed excellent flame retardancy with the LOI of 37.2%, the V0 rating on UL-94 and a 63.3% decrease on PHRR in cone calorimeter test. According to the analysis of char morphology and structure, the flame retarded mechanism was mainly ascribed to the enhanced barrier effect of a continuous and intergrow char layer, which was composed of GF@SiO2 as framework and P-containing condensed carbon as stuffing. Meanwhile, EP composites exhibited outstanding mechanical perfor-mances with 35% and 60% increases on tensile strength and impact strength respectively, which resulted from the special molecular structure of GF@SiO2-g-DOPO with strong interfacial adhesion with EP chains via hydrogen bond and chemical bond. In summary, this work will be favorable to design multifunctional polymer composites with well-balanced comprehensive performances, and expand their widespread applications in high-end fields.

卷号：243

期号：

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