作　　者： ; ;

机构地区： 华南理工大学材料科学与工程学院

出　　处： 《武汉理工大学学报》 2006年第6期24-27,共4页

摘　　要： 利用一步法合成了低粘度液体型超支化环氧树脂HTDE-3,并利用该种超支化环氧树脂与双酚A型环氧树脂杂化复合,研究其固化物的力学性能。研究表明:杂化树脂的性能随超支化环氧树脂含量的增加先增加后下降,有最大值;当超支化环氧树脂用量为质量分数12%左右时,杂化树脂体系的拉伸强度、弯曲强度、冲击强度和断裂韧性分别提高20.0%、15.6%、205.7%和70.5%,断裂韧性达到3.12 kPa.m1/2。利用FT-IR对超支化环氧树脂的结构进行了表征;利用SEM对杂化树脂的断裂表面形貌和增韧增强机理进行了探讨;利用分子模拟技术模拟了超支化环氧树脂的结构、形态和尺寸。 This paper reports on the synthesis of liquid hyperbranched aromatic polyester epoxy resin HTDE-3 by one-pot method and the hybrid composite of HTDE-3 and diglycidyl ether of bisphenol-A （DGEBA）. The mechanical performance of the hybrid resin was studied and the effect of HTDE-3 content on the cured system was discussed in detail. It was shown that, the content of HTDE-3 had important effect on the performance of the cured system, and the performance of the HTDE-3/ DGEBA blends had maximum with the increase of HTDE-3 content. The impact strength and fracture toughness of the cured system with 12 % HTDE-3 were almost 3.1 and 1.7 times of DGEBA performance respectively. Furthermore, the tensile and flexural strength can be enhanced respectively about 20.0% and 15.6%, and maximum fracture toughness of the hybrid resins was more than 3.12 kPa·m^1/2. FT-IR, SEM and molecular simulation technology were used to study the structure of HTDE- 3, performance and toughness and strength improvement mechanism of the HTDE-3/DGEBA hybrid resin.

关 键 词： 超支化环氧树脂 制备 韧性 机理 分子模拟

领　　域： [石油与天然气工程]