%0 Journal Article %T 异氰酸酯功能化氧化石墨烯/热塑性聚氨酯弹性体复合材料的制备与性能<br>Preparation and characterization of isocyanate functionalized graphene oxide/thermoplastic polyurethane elastomer composites %A 白静静 %A 尹建宇 %A 高雄 %J 复合材料学报 %D 2018 %R 10.13801/j.cnki.fhclxb.20171120.003 %X 采用甲苯-2,4-二异氰酸酯(TDI)对氧化石墨烯(GO)进行表面接枝改性,制得TDI功能化GO(TDI-GO),再将其分散于4,4’-二苯基甲烷二异氰酸酯中,经原位聚合法制备TDI-GO/热塑性聚氨酯弹性体(TPU)复合材料。利用FTIR、XPS、DSC、TG、SEM、维卡软化温度和拉力试验机等测试手段,表征和分析了TDI-GO的表面结构及TDI-GO含量对TDI-GO/TPU复合材料结构与性能的影响。结果表明,TDI成功接枝改性GO,TDI-GO的加入使TPU体系的微相分离程度减弱,其异相成核作用提高了TPU硬段相的结晶性能;相比纯TPU基体,TDI-GO/TPU复合材料耐热性能提高,当TDI-GO添加量为0.5wt%时,复合材料5%热失重温度提高了约9℃,维卡软化温度提高了约18℃;TDI-GO/TPU复合材料力学性能明显提高,与纯TPU相比,TDI-GO含量为0.5wt%的TDI-GO/TPU复合材料拉伸强度提高了近10 MPa,断裂伸长率提高了约32%。 The functionalized graphene oxide (TDI-GO) was prepared by grafting 2, 4-di-isocyanate(TDI) onto the surface of GO. Then a series of TDI-GO/thermoplastic polyurethane elastomer(TPU) composites with different TDI-GO contents were prepared by prepolymer method via in-situ polymerization. The structure of TDI-GO was characterized and the influences of the dosage of TDI-GO on the structure and properties of TDI-GO/TPU composites were studied by FTIR, XPS, DSC, TG, SEM, the Vicat softening temperature and the mechanical property tester. The results demonstrate that, TDI successfully graft onto GO; TDI-GO can decrease microphase separation of TPU, and improve the crystallinity of hard segment as a heterogeneous nucleation agent; comparing with the pristine TPU, TDI-GO/TPU composites have excellent thermal properties, when the mass fraction of TDI-GO is 0.5wt%, the 5% degradation temperature increases by 9℃, and the Vicat softening temperature raises by 18℃; the mechanical properties of TDI-GO/TPU composites enhance markedly, comparing with the pristine TPU, when the mass fraction of TDI-GO is 0.5wt%, the tensile strength increases almost 10 MPa, and the elongation at breaking increases about 32%. 太原工业学院大学生创新创业训练项目(GK20170112) %K 氧化石墨烯 %K 异氰酸酯 %K 表面改性 %K 热塑性弹性体 %K 热性能< %K br> %K graphene oxide %K isocyanate %K surface modification %K thermoplastic elastomer %K thermal property %U http://fhclxb.buaa.edu.cn/CN/abstract/abstract14097.shtml