TELKOMNIKA Telecommunication, Computing, Electronics and Control
Fractal analysis of electrical tree grown in silicone rubber nanocomposites
Dublin Core
Title
TELKOMNIKA Telecommunication, Computing, Electronics and Control
Fractal analysis of electrical tree grown in silicone rubber nanocomposites
Fractal analysis of electrical tree grown in silicone rubber nanocomposites
Subject
Electrical tree, Fractal analysis, Nanocomposites, Silicone rubber
Description
Electrical treeing is one of the main reasons for long-term degradation
of high voltage insulation especially in the cable accessory which commonly made from silicone rubber due to non-uniformly structures of the cable accessories. Recently, the combination of nanofillers with the silicone rubber matrix can reduce the possibility of the electrical treeing to grow further by changing its patterns and slow-down its propagation. However, the influences of nanofillers on the tree hindrance and its patterns are not well understood. This paper explores the influence of nanofiller on tree pattern in silicon rubber. The electrical tree patterns were characterized using fractal analysis. The box-counting method was used to measure the fractal dimension and lacunarity to obtain the structure of the tree pattern during the electrical tree growth. The structure of the electrical tree in silicone rubber nanocomposites has higher fractal dimension and lacunarity. Sample with nanofiller possesses dominant fractal dimension of tree growth compared to the sample without nanofiller.
of high voltage insulation especially in the cable accessory which commonly made from silicone rubber due to non-uniformly structures of the cable accessories. Recently, the combination of nanofillers with the silicone rubber matrix can reduce the possibility of the electrical treeing to grow further by changing its patterns and slow-down its propagation. However, the influences of nanofillers on the tree hindrance and its patterns are not well understood. This paper explores the influence of nanofiller on tree pattern in silicon rubber. The electrical tree patterns were characterized using fractal analysis. The box-counting method was used to measure the fractal dimension and lacunarity to obtain the structure of the tree pattern during the electrical tree growth. The structure of the electrical tree in silicone rubber nanocomposites has higher fractal dimension and lacunarity. Sample with nanofiller possesses dominant fractal dimension of tree growth compared to the sample without nanofiller.
Creator
Z. Nawawi, M. A. B. Sidik, M. I. Jambak, R. F. Kurnia, C. L. G. Pavan Kumar, M. H. Ahmad, Z. Buntat
Source
DOI: 10.12928/TELKOMNIKA.v18i3.13389
Publisher
Universitas Ahmad Dahlan
Date
June 2020
Contributor
Sri Wahyuni
Rights
ISSN: 1693-6930
Relation
http://journal.uad.ac.id/index.php/TELKOMNIKA
Format
PDF
Language
English
Type
Text
Coverage
TELKOMNIKA Telecommunication, Computing, Electronics and Control
Files
Collection
Citation
Z. Nawawi, M. A. B. Sidik, M. I. Jambak, R. F. Kurnia, C. L. G. Pavan Kumar, M. H. Ahmad, Z. Buntat, “TELKOMNIKA Telecommunication, Computing, Electronics and Control
Fractal analysis of electrical tree grown in silicone rubber nanocomposites,” Repository Horizon University Indonesia, accessed September 20, 2024, https://repository.horizon.ac.id/items/show/3773.
Fractal analysis of electrical tree grown in silicone rubber nanocomposites,” Repository Horizon University Indonesia, accessed September 20, 2024, https://repository.horizon.ac.id/items/show/3773.