A comparative study of electrical aging of multiwalled carbon nanotubes and carbon black filled cross-linked polyethylene

A comparative study of electrical aging of multiwalled carbon nanotubes and carbon black filled cross-linked polyethylene

In this work, XLPE/MWCNT and XLPE/CB nanocomposites have been prepared in order to investigate AC electric field and water effects on electrical aging of XLPE. The mechanical, AC breakdown strength and AC conductivity were tested and the morphologies after 30 days electrical aging were observed usin...

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Main Authors: Pei Yang, Ke Tian, Xiancheng Ren, Kai Zhou
Format: Article
Language:English
Published: Taylor & Francis Group 2019-10-01
Series:Nanocomposites
Subjects:
cross-linking
polyethylene
electrical degradation
electrical properties
Online Access:http://dx.doi.org/10.1080/20550324.2019.1669897
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spelling doaj-a246810322c54967abfed81daa07d3f82020-11-25T03:03:40ZengTaylor & Francis GroupNanocomposites2055-03322019-10-01549510310.1080/20550324.2019.16698971669897A comparative study of electrical aging of multiwalled carbon nanotubes and carbon black filled cross-linked polyethylenePei Yang0Ke Tian1Xiancheng Ren2Kai Zhou3Sichuan UniversitySichuan UniversitySichuan UniversitySichuan UniversityIn this work, XLPE/MWCNT and XLPE/CB nanocomposites have been prepared in order to investigate AC electric field and water effects on electrical aging of XLPE. The mechanical, AC breakdown strength and AC conductivity were tested and the morphologies after 30 days electrical aging were observed using an optical microscope. The results showed that all samples exhibit excellent insulation properties and mechanical properties. Compared with CB addition, the MWCNT composites exhibit better resistance to electrical aging, with the length of electrical aging-induced microcracks in the MWCNT blends decreasing from 104 to 22 µm, and the width decreasing from 87 to 17 µm, which means a reduction of ∼80% compared of values for neat XLPE in both length and width. However, the XLPE/CB composites have a tendency to promote electrical aging. The mechanism is revealed by comparing the results of the fibrous MWCNTs with the spherical CBs.http://dx.doi.org/10.1080/20550324.2019.1669897cross-linkingpolyethyleneelectrical degradationelectrical properties
collection DOAJ
language English
format Article
sources DOAJ
author Pei Yang
Ke Tian
Xiancheng Ren
Kai Zhou
spellingShingle Pei Yang
Ke Tian
Xiancheng Ren
Kai Zhou
A comparative study of electrical aging of multiwalled carbon nanotubes and carbon black filled cross-linked polyethylene
Nanocomposites
cross-linking
polyethylene
electrical degradation
electrical properties
author_facet Pei Yang
Ke Tian
Xiancheng Ren
Kai Zhou
author_sort Pei Yang
title A comparative study of electrical aging of multiwalled carbon nanotubes and carbon black filled cross-linked polyethylene
title_short A comparative study of electrical aging of multiwalled carbon nanotubes and carbon black filled cross-linked polyethylene
title_full A comparative study of electrical aging of multiwalled carbon nanotubes and carbon black filled cross-linked polyethylene
title_fullStr A comparative study of electrical aging of multiwalled carbon nanotubes and carbon black filled cross-linked polyethylene
title_full_unstemmed A comparative study of electrical aging of multiwalled carbon nanotubes and carbon black filled cross-linked polyethylene
title_sort comparative study of electrical aging of multiwalled carbon nanotubes and carbon black filled cross-linked polyethylene
publisher Taylor & Francis Group
series Nanocomposites
issn 2055-0332
publishDate 2019-10-01
description In this work, XLPE/MWCNT and XLPE/CB nanocomposites have been prepared in order to investigate AC electric field and water effects on electrical aging of XLPE. The mechanical, AC breakdown strength and AC conductivity were tested and the morphologies after 30 days electrical aging were observed using an optical microscope. The results showed that all samples exhibit excellent insulation properties and mechanical properties. Compared with CB addition, the MWCNT composites exhibit better resistance to electrical aging, with the length of electrical aging-induced microcracks in the MWCNT blends decreasing from 104 to 22 µm, and the width decreasing from 87 to 17 µm, which means a reduction of ∼80% compared of values for neat XLPE in both length and width. However, the XLPE/CB composites have a tendency to promote electrical aging. The mechanism is revealed by comparing the results of the fibrous MWCNTs with the spherical CBs.
topic cross-linking
polyethylene
electrical degradation
electrical properties
url http://dx.doi.org/10.1080/20550324.2019.1669897
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