Effect of stoichiometry on AC and DC breakdown of silicon nitride/epoxy nanocomposites
Effect of stoichiometry on AC and DC breakdown of silicon nitride/epoxy nanocomposites
This study investigates the electrical behavior of silicon nitride/epoxy nanocomposites. It is demonstrated that the presence of the nanofiller affects the resin/hardener stoichiometry, which results in the development of different network structures throughout the matrix polymer. However, detailed analysis shows that this stoichiometric effect cannot account, alone, for the observed changes in the electrical behavior of the nanocomposite samples. A comparison between the electrical behavior of filled and the unfilled samples, where appropriate stoichiometric compensation has been applied, indicates that there is an additional effect that is exclusively a function of the nanofiller loading and which is superimposed on any matrix chemistry effects. Potential explanations for this nanoparticle effect are discussed, including: nanoparticle agglomeration; water shells around the nanoparticles; the influence of nanoparticles on matrix dynamics, structure or the free volume content of polymer interphase.
1231 - 1237
Alhabill, Fuad
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Vaughan, Alun
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Nader, Anani
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Andritsch, Thomas
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Alhabill, Fuad
253d8162-b329-46cc-ace6-5e39a8caca33
Vaughan, Alun
6d813b66-17f9-4864-9763-25a6d659d8a3
Nader, Anani
faa91dd4-e9ca-4ef5-b4c6-c61bf63ed705
Andritsch, Thomas
8681e640-e584-424e-a1f1-0d8b713de01c
Alhabill, Fuad, Vaughan, Alun, Nader, Anani and Andritsch, Thomas
(2021)
Effect of stoichiometry on AC and DC breakdown of silicon nitride/epoxy nanocomposites.
IEEE Transactions on Dielectrics & Electrical Insulation, 28 (4), .
(doi:10.1109/TDEI.2021.009561).
Abstract
This study investigates the electrical behavior of silicon nitride/epoxy nanocomposites. It is demonstrated that the presence of the nanofiller affects the resin/hardener stoichiometry, which results in the development of different network structures throughout the matrix polymer. However, detailed analysis shows that this stoichiometric effect cannot account, alone, for the observed changes in the electrical behavior of the nanocomposite samples. A comparison between the electrical behavior of filled and the unfilled samples, where appropriate stoichiometric compensation has been applied, indicates that there is an additional effect that is exclusively a function of the nanofiller loading and which is superimposed on any matrix chemistry effects. Potential explanations for this nanoparticle effect are discussed, including: nanoparticle agglomeration; water shells around the nanoparticles; the influence of nanoparticles on matrix dynamics, structure or the free volume content of polymer interphase.
Text
TDEI Article
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Available under License Other.
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Submitted date: February 2021
Accepted/In Press date: 17 May 2021
e-pub ahead of print date: 17 August 2021
Identifiers
Local EPrints ID: 450236
URI: http://eprints.soton.ac.uk/id/eprint/450236
ISSN: 1070-9878
PURE UUID: d4e94412-1e79-4ed3-951b-1ceb3b78b489
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Date deposited: 07 Jun 2022 16:53
Last modified: 17 Mar 2024 03:33
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Contributors
Author:
Fuad Alhabill
Author:
Alun Vaughan
Author:
Anani Nader
Author:
Thomas Andritsch
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