无机组分改性聚酰亚胺树脂基体的制备

选取聚酰亚胺作为有机树脂基体,用SiO2、Al2O3作为无机组分,通过其前驱体甲基三乙氧基硅烷和异丙醇铝在聚酰胺酸的N,N—二甲基乙酰胺溶液中进行溶胶-凝胶(Sol_gel)反应,制备了SiO2和Al2O3改性的聚酰亚胺树脂基体,为了考察树脂的性能,将其加热亚胺化成膜,采用红外光谱仪、热重分析仪、扫描电镜等对薄膜的化学结构、热性能、表面形态和电学性能进行表征。结果表明:杂化薄膜形成了有机相包裹无机相的结构,无机微粒比较均匀地分散在聚酰亚胺树脂基体中,粒径较大,树脂热性能好,电击穿性能有一定提高。

无机组分对聚酰亚胺杂化薄膜电性能的影响

初步探讨了聚酰亚胺薄膜在电场作用下的电学行为,采用溶胶-凝胶工艺制备了聚酰亚胺/二氧化硅纳米杂化薄膜,并对薄膜进行浸水24h处理,利用原子力显微镜对制备的薄膜进行表面形貌表征,讨论了无机组分SiO2和水对薄膜电性能的影响.结果表明:无机组分的引入及两相间的界面形态将对杂化薄膜的电学性能产生重大的影响;偶联剂的引入使得两相间产生紧密的微相结合,并对电性能产生一定的影响.

固体含量对聚酰亚胺/二氧化硅杂化薄膜热性能的影响

利用正硅酸乙酯(TEOS)做为无机前驱体,采用溶胶-凝胶(Sol_Gel)法,制备了SiO2含量一定,固体含量不同的聚酰亚胺/二氧化硅(PI/SiO2)纳米杂化薄膜。采用傅立叶变换红外光谱(FT_IR)、原子力显微镜(AFM)、热重分析(TGA)等方法研究了杂化薄膜的结构与性能。AFM分析显示:SiO2粒子均匀分散在PI树脂中。随固体含量增加,SiO2粒子的平均粒径变大,有机相与无机相的界面变清晰;当固体含量为20%(质量分数)时,两相出现明显的相分离。TGA结果表明:引入一定含量的SiO2,有助于提高PI/SiO2纳米杂化薄膜的热稳定性;当固体含量高时,杂化薄膜的热稳定性下降。

聚酰亚胺/二氧化硅/二氧化钛纳米杂化膜的制备与性能分析

利用甲基三乙氧基硅烷和钛酸四丁酯作为杂化过程中制备SiO2、TiO2的前体,采用溶胶-凝胶法制得聚酰亚胺/SiO2/TiO2杂化薄膜。SEM分析显示无机纳米粒子均匀分散在聚酰亚胺基体中,并且随着无机组分含量的增加,纳米粒子尺寸增大,当TiO2含量为1wt%、SiO2含量达到12wt%时,无机粒子尺寸达到100nm左右。TG分析结果表明引入一定量的无机纳米粒子提高了薄膜的热分解温度。

220kV交联电缆干式GIS终端界面应力的设计与验证

带有弹簧压力系统的电缆附件,如果界面接触应力不足,则易出现放电现象;如果界面接触应力太大则可能导致电缆绝缘缩径。笔者通过电气性能试验确定了220 kV交联电缆干式GIS终端应用硅橡胶应力锥时所需的弹簧压力。通过冷态、热态试验验证了所设计弹簧系统的可靠性。最后应用ANSYS软件计算了在弹簧压力和过盈装配共同作用下的GIS终端界面接触应力。

Preparation and characterization of polyimide/silica hybrid films

A kind of hybrid polyimide films was prepared by synthesizing poly(amic acid)/Silica matrix resin through sol-gel technique and then followed by positing it on a silex glass plate and drying at high temperature. The effect of silica content on the corona-resistant property of the films was studied. The miscibility between the organic and inorganic phases and its effect on the corona-resistant property were investigated with aminopropyltriethoxysilane, which served as a coupling agent, added into the polyimide composite system. The chemical structure and the surface morphology of the films were characterized by FTIR and AFM respectively. The corona-resistant property of the films was tested by a rod-plate electrode. It proved that the corona-resistant property was enhanced with silica content. It also turned out that the improvement of the miscibility between the two phases due to the presence of covalent force as a result of the addition of the coupling agent had, to some extent, effect on the corona-resistant property of the films. Furthermore, a theory on the corona-resistant property was put forward preliminarily.