Structure characteristics and dielectric properties of PI/MMT nanocomposite films

Recent developments in polymeric dielectric nanocomposites have shown that these novel materials can improve design of high voltage components and systems. MMT(Montmorillonite)has an excellent corona performance and PI/MMT nanocomposite films can be prepared by in-situ polymerization process in this...

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Hauptverfasser:	Jinghua Yin, Wenbin Bu, Fuqiang Tian, Minghua Chen, Yunan Kong, Liu Xiaoxu, Li Guang, Lei Qingquan
Format:	Tagungsbericht
Sprache:	eng
Schlagworte:	Artificial intelligence Corona dielectric properties Electron traps Harmonic analysis Insulation microstructure Nanocomposites Nanoparticles PI/MMT nanocomposite trap state
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creator	Jinghua Yin Wenbin Bu Fuqiang Tian Minghua Chen Yunan Kong Liu Xiaoxu Li Guang Lei Qingquan
description	Recent developments in polymeric dielectric nanocomposites have shown that these novel materials can improve design of high voltage components and systems. MMT(Montmorillonite)has an excellent corona performance and PI/MMT nanocomposite films can be prepared by in-situ polymerization process in this paper. Dielectric properties and trap level characteristic were measured by broadband dielectric spectrometer, thermally stimulated current (TSC) and the system of corona resistance. The microstructures of the films are observed by SEM. The experimental results show that the trap densities of nanocomposite films are more than that PI. With the MMT component increasing, the permittivity of nanocomposite films become smaller and dielectric loss of nanocomposite films increase obviously in the range of low frequency (10 -3 ~10 0 Hz), corona aging life of nanocomposite films are longer than that PI. The layered MMT nanoparticles doping in PI matrix provide a lot of traps which have an important influence on the electrons transplanting, furthermore, affecting dielectric properties of films. The research show that the corona aging life and dielectric properties can be enhanced by increasing proper trap density and depth provided by nanoparticles.
doi_str_mv	10.1109/ICPADM.2012.6318949
format	Conference Proceeding
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MMT(Montmorillonite)has an excellent corona performance and PI/MMT nanocomposite films can be prepared by in-situ polymerization process in this paper. Dielectric properties and trap level characteristic were measured by broadband dielectric spectrometer, thermally stimulated current (TSC) and the system of corona resistance. The microstructures of the films are observed by SEM. The experimental results show that the trap densities of nanocomposite films are more than that PI. With the MMT component increasing, the permittivity of nanocomposite films become smaller and dielectric loss of nanocomposite films increase obviously in the range of low frequency (10 -3 ~10 0 Hz), corona aging life of nanocomposite films are longer than that PI. The layered MMT nanoparticles doping in PI matrix provide a lot of traps which have an important influence on the electrons transplanting, furthermore, affecting dielectric properties of films. 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MMT(Montmorillonite)has an excellent corona performance and PI/MMT nanocomposite films can be prepared by in-situ polymerization process in this paper. Dielectric properties and trap level characteristic were measured by broadband dielectric spectrometer, thermally stimulated current (TSC) and the system of corona resistance. The microstructures of the films are observed by SEM. The experimental results show that the trap densities of nanocomposite films are more than that PI. With the MMT component increasing, the permittivity of nanocomposite films become smaller and dielectric loss of nanocomposite films increase obviously in the range of low frequency (10 -3 ~10 0 Hz), corona aging life of nanocomposite films are longer than that PI. The layered MMT nanoparticles doping in PI matrix provide a lot of traps which have an important influence on the electrons transplanting, furthermore, affecting dielectric properties of films. The research show that the corona aging life and dielectric properties can be enhanced by increasing proper trap density and depth provided by nanoparticles.</abstract><pub>IEEE</pub><doi>10.1109/ICPADM.2012.6318949</doi><tpages>4</tpages></addata></record>
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source	IEEE Electronic Library (IEL) Conference Proceedings
subjects	Artificial intelligence Corona dielectric properties Electron traps Harmonic analysis Insulation microstructure Nanocomposites Nanoparticles PI/MMT nanocomposite trap state
title	Structure characteristics and dielectric properties of PI/MMT nanocomposite films
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