Title :
Preparation and characterization of PI/inorganic nanoparticles corona-resistance composite film
Author :
Liu, Lizhu ; Zhang, Yingtang ; Wang, Kun ; Fan, Y. ; Lei, QQ
Author_Institution :
Coll. of Mater. & Electron., Harbin Univ. of Sci. & Technol., China
Abstract :
In this paper, PAA/nano-SiO2 hybrid was made by means of ultrasonic method, then effectively stable and redisperse matrix was obtained, and heated step by step until 573 K. The heating process lasted about eight hours and we gained film 20-30 μm in thickness. The dispersion stability, morphology and structure of film were characterized by means of IR and AM. The results show that inorganic nanoparticles in PAA matrix can redisperse more effectively by ultrasonic irradiation than by conventional stirring. These films made in this craft polymerization that are examined by corona-resistant test. The results show that these films are largely different in the corona-resistance behavior between primeval PI and PI/nano-SiO2 composite films. Meanwhile, we study the breakdown behavior of the films.
Keywords :
atomic force microscopy; infrared spectra; insulating materials; nanocomposites; organic-inorganic hybrid materials; particle size; polymer films; polymerisation; sol-gel processing; vapour deposition; 20 to 30 micron; 573 K; SiO2; atomic force microscopy; corona resistant test; corona-resistance composite film; craft polymerization; film dispersion morphology; film dispersion stability; film dispersion structure; heating process; inorganic nanoparticles; polyamic acid matrix; polyimide nanoparticles; redisperse matrix; sol-gel processing; ultrasonic irradiation; ultrasonic method; vapor deposition; Educational institutions; Heating; Materials science and technology; Mechanical factors; Nanoparticles; Polymer films; Stability; Surface morphology; Testing; Voltage;
Conference_Titel :
Electrical Insulation Conference and Electrical Manufacturing & Coil Winding Technology Conference, 2003. Proceedings
Print_ISBN :
0-7803-7935-7
DOI :
10.1109/EICEMC.2003.1247932
