TSDC in epoxy networks of well-controlled architecture: Experimental evidence for local and non-local relaxation process

Author

Henn, F. ; Giuntini, J.C. ; Halary, J.L. ; Vanderschueren, J. ; Muracciole, J.M.

Author_Institution

Lab. de Physicochimie des Mater., Univ. des Sci. et Tech. du Languedoc, Montpellier, France

Volume

7

Issue

4

fYear

2000

fDate

8/1/2000 12:00:00 AM

Firstpage

551

Lastpage

555

Abstract

Local and non-local relaxation processes were distinguished by investigating the heating rate dependence of the thermally stimulated discharge current (TSDC) line-shape in the case of three epoxy networks of well-controlled architecture. These networks were chosen because their chain dynamics differ by the relative extent of their local and short-scale cooperative molecular motions, as a consequence of marked differences in crosslink density. As far as local motions are concerned, the TSDC evolution measured at low temperature can be accounted for by using a model based on a distribution of activation energies. On the other hand, the higher temperature part of the spectrum of the densely crosslinked network, which mainly results from cooperative motions, shows a much different behavior which cannot be fitted by such a distribution model

Keywords

dielectric relaxation; epoxy insulation; thermally stimulated currents; activation energy distribution model; chain dynamics; cooperative molecular motions; crosslink density; epoxy network; local relaxation; nonlocal relaxation; thermally stimulated discharge current; Conducting materials; Dielectrics; Energy measurement; Heating; Helium; Intelligent networks; Polymers; Temperature dependence; Temperature distribution; Temperature measurement;

fLanguage

English

Journal_Title

Dielectrics and Electrical Insulation, IEEE Transactions on

Publisher

ieee

ISSN

1070-9878

Type

jour

DOI

10.1109/94.868076

Filename

868076