Skip to main navigation Skip to main content
  • KIEEME

J Electr Electron Mater : Journal of Electrical and Electronic Materials

OPEN ACCESS
ABOUT
BROWSE ARTICLES
EDITORIAL POLICIES
FOR CONTRIBUTORS

Page Path

2
results for

"DC Cable"

Keywords

Publication year

Authors

"DC Cable"

High Voltage and Discharge Engineering : DC and Impulse Insulation Characteristics of PPLP for HTS DC Cable
Woo Jin Kim, Man Sik Pang, Iiae Jong Kim, Jeon Wook Cho, Sang Hyun Kim
J Electr Electron Mater 2013;26(7):545-549.   Published online July 1, 2013
Abstract: To realize the high-Tc superconducting (HTS) DC cable system, it is important to study not only high current capacity and low loss of conductor hut also optimum electrical insulation at cryogenic temperature. A model I-ITS DC cable system consists of a HTS conductor, semi-conductor, cooling system and insulating materials. Polypropylene laminated paper (PPLP) has been widely adopted as insulating material for HTS machines. However, the fundamental insulation characteristics of PPLP for the development of HTS DC cable have not been revealed satisfactorily until now. In this paper, we will discuss mainly on the breakdown characteristics of 3 sheets PILP in liquid nitrogen (LN2). The characteristics of the diameter, location of butt-gap, distance between butt-gap length, pressure effect, polarity effect under DC and impulse voltage were studied. Also, the DC polarity reversal breakdown voltage of mini-model cable was measured in LN2 under 0.4 MPa.
  • 11 View
  • 0 Download
Insulation Materials : Electrical and Mechanical Properties of Semiconductive Composites for DC Power Cable
Ki Joung Lee, Bum Sik Seo, Jong Seok Yang, Baeg Yong Seong, Dae Hee Park
J Electr Electron Mater 2013;26(2):119-125.   Published online February 1, 2013
In this paper, semiconducting shield specimens for a DC cable is fabricated and characterized by measurement of volume resistance, tensile strength, and the coefficient of expansion to show the electrical and mechanical characteristics of the semiconducting shield. Due to the PTC phenomenon, the volume resistance at 25℃ increases rapidly in comparison to the volume resistance at 90℃. Since the compounding ratio of carbon black is low, the tensile strength and density become lower and the coefficient of expansion is increased. As the general specification of the tensile strength and density is 0.8 kgf/㎟ and 150%, respectively, the fabricated specimen in this paper has excellent mechanical characteristic.
  • 11 View
  • 0 Download