Title :
Improved charge stability in polymer electrets quenched before charging
Author_Institution :
Inst. of Electroacoust., Tech. Univ. of Darmstadt
fDate :
6/1/1990 12:00:00 AM
Abstract :
The influence of heat treatment (heating followed by quenching prior to charging) on charge storage in fluoroethylenepropylene (FEP) and polypropylene (PP) foils is studied by a corona discharge or by a mono-energetic electron beam. The variables which affect the charge decay time and the TSD (thermally stimulated discharge) peak are discussed. It is found that quenching leads to a significant reduction of the average crystalline size and an increase of the number of crystal granules. The activation energies are determined by the initial rise method, and the attempt-to-escape frequencies at higher temperatures are estimated for FEP before and after quenching. The depth dependence of the hardening in quenched samples is studied by use of electron-beam charging and explained by the different cooling rates at different depths inside a 25-μm thick teflon-FEP sample during quenching
Keywords :
corona; electrets; heat treatment; polymers; thermally stimulated currents; TSD; activation energies; charge decay time; charge stability; charge storage; cooling rates; corona discharge; crystal granules; crystalline size; depth dependence; electron-beam charging; fluoroethylenepropylene; heat treatment; mono-energetic electron beam; polymer electrets; polypropylene; quenching; Cooling; Corona; Crystallization; Electrets; Electron beams; Frequency estimation; Heat treatment; Polymers; Stability; Temperature;
Journal_Title :
Electrical Insulation, IEEE Transactions on
