Title :
From "dust" to quality dielectric - the formulation of dielectric clays
Author :
Hogan, John D. ; Berry, Lewis A.
Abstract :
As the need for power increased, the electrical industry looked to increase the voltage to reduce losses. Natural rubber was replaced with styrene butadiene rubber (SBR). The SBR was then replaced by butyl rubber; and, finally, butyl rubber was replaced by EPDM and XLPE as the voltages rose from 5 to 15 to 35 to 138 kV. In each of these steps, the rubber compounds required clay initially to enhance mechanical properties, later to improve electrical properties, and finally to give the excellent physical and electrical properties we now know and use. As a result of this evolution, the clay manufacturers responded with purer, more controlled materials to assist in meeting the challenge. This paper discusses that kaolin clay is and how it is converted to electrical grade. It also describes the different compounds with in situ surface compatibilization and the process of quality control and compound formulation.
Keywords :
calcination; clay; dielectric materials; electric breakdown; electrical resistivity; rubber; surface treatment; EPR-based compounds; calcination; compound formulation; dielectric breakdown; dielectric clays; ethylene propylene rubber; fillers; high voltage insulations; in situ surface compatibilization; kaolin clay; medium voltage insulations; silane-treated clay; surface treatment; volume resistivity; Brightness; Conducting materials; Dielectric materials; Dielectrics and electrical insulation; Iron; Low voltage; Magnetic separation; Mechanical factors; Rubber; Spraying;
Journal_Title :
Electrical Insulation Magazine, IEEE
DOI :
10.1109/MEI.2005.1513427
