A study of the effect of temperature on the dielectric breakdown and lifetime of polyethylene materials under applied DC voltages at the nanoscale

Imed Boukhris; Imen Kebaili; Halima Ibrahim El Saeedy; Ezzeddine Belgaroui; Ali Kallel

doi:10.1051/epjap/2020190057

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A study of the effect of temperature on the dielectric breakdown and lifetime of polyethylene materials under applied DC voltages at the nanoscale

Journal article

Peer reviewed

A study of the effect of temperature on the dielectric breakdown and lifetime of polyethylene materials under applied DC voltages at the nanoscale

Imed Boukhris, Imen Kebaili, Halima Ibrahim El Saeedy, Ezzeddine Belgaroui and Ali Kallel

European physical journal. Applied physics, Vol.89(3), p.30401

01/03/2020

DOI: https://doi.org/10.1051/epjap/2020190057

Abstract

Physical Sciences

Physics

Physics, Applied

Science & Technology

The reported simulation results could be considered as one of the firsts modeling of the effect of temperature on the electrical breakdown phenomenon in polyethylene nanoscale. The breakdown begins with an abrupt increase of the external current density without a subsequent saturation. Our results show that the increase of temperature at a constant applied DC voltage leads to a breakdown and to a decrease of the insulator's lifetime. These outcomes are strongly linked to the injection of free charges into the sample and to the temporal evolution of the conduction current.

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Title: A study of the effect of temperature on the dielectric breakdown and lifetime of polyethylene materials under applied DC voltages at the nanoscale
Creators - without role: Imed Boukhris - University of Sfax
Imen Kebaili - University of Sfax
Halima Ibrahim El Saeedy - King Khaled Univ, Fac Sci, Dept Phys, Abha, Saudi Arabia
Ezzeddine Belgaroui - University of Sfax
Ali Kallel - University of Sfax
Publication Details: European physical journal. Applied physics, Vol.89(3), p.30401
Publisher: Edp Sciences S A
Number of pages: 7
Grant note: G.R.P- 266 -40 / Deanship of Scientific Research at King Khalid University
Identifiers: 9922398308331
Academic Unit: King Khalid University
Language: English
Resource Type: Journal article