Title :
Novel high glass transition polyamide-imide: Tg influence on electrical conductivity at high temperature
Author :
Diaham, S. ; Locatelli, M.-L.
Author_Institution :
Lab. Plasma et Conversion d´Energie, Univ. de Toulouse, Toulouse, France
fDate :
10/1/2015 12:00:00 AM
Abstract :
The dielectric properties of a novel high-glass transition polyamide-imide (hTg-PAI, Tg=333°C) are investigated for its high temperature use as an insulating material in the range above 250°C in order to extend the limit of conventional PAI (c-PAI, Tg=277°C). Four dielectric processes are identified between 50°C and 400°C. Among them, the electrical conduction (σ-conduction) is clearly reduced particularly in the range from 250°C to 320°C, i.e. Tg(c-PAI)≤T≤ Tg(hTg-PAI). The main reason explaining such an enhancement is the shift of ionic conduction contribution towards higher temperatures in hTg-PAI compared to c-PAI. In hTg-PAI, the higher-Tg value allows better controlling the free volume expansion responsible of large ions motions in the bulk. In the range of potential applications (i.e. 250 to 320°C), the σ-conduction of hTg- PAI has an activation energy of 2.3 eV (~221.9 kJ mol-1).
Keywords :
dielectric materials; high-temperature techniques; insulating materials; ionic conductivity; PAI; dielectric process; dielectric property; electrical conduction; electrical conductivity; electron volt energy 2.3 eV; free volume expansion; glass transition polyamide-imide; hTg-PAI; insulating material; ionic conduction; temperature 250 degC to 320 degC; Conductivity; Dielectrics; Glass; Temperature dependence; Temperature distribution; Temperature measurement; Dielectric properties; Electrical conduction.; High glass transition; PAI; Polyamide-imide;
Journal_Title :
Dielectrics and Electrical Insulation, IEEE Transactions on
DOI :
10.1109/TDEI.2015.004925
