Short-term Breakdown and Long-term Failure in Nanodielectrics: A Review
Short-term Breakdown and Long-term Failure in Nanodielectrics: A Review
Nanodielectrics, which are concentrated in polymer matrix incorporating nanofillers, have received considerable attention due to their potential benefits as dielectrics. In this paper, short-term breakdown and long-term failure properties of nanodielectrics have been reviewed. The characteristics of polymer matrix, types of nanoparticle and its content, and waveforms of the applied voltage are fully evaluated. In order to effectively comment on the published experimental data, a ratio k has been proposed to compare the electric properties of the nanodielectrics with the matrix and assess the effect for nanoparticles doping. There is evidence that the short-term breakdown properties of nanodielectrics show a strong dependence on the applied voltage waveforms. The polarity and the cohesive energy density (CED) of polymer matrix have a dramatic influence on the properties of nanodielectrics. Nanoparticle doped composites show a positive effect on the long-term failure properties, such as ageing resistance and partial discharge (PD) properties of nanocomposites are superior than microcomposites and the matrix. The larger the dielectric constant and CED of the matrix become, the more significant improvements in long-term performance appear. Based on the reported experimental results, we also present our understandings and propose some suggestions for further work.
Nanodielectric, short-term breakdown, long-term degradation, cohesive energy density.
1523-1535
Li, Shengtao
e2d199c9-1c0c-40c8-aefb-ff3b3d8e4799
Yin, Guilai
39f54504-6b00-4965-bab2-1abe9a40d985
Chen, George
3de45a9c-6c9a-4bcb-90c3-d7e26be21819
Li, Jianying
faf6d6d4-a765-4b35-9399-973672933cc4
Bai, Suna
3008f08c-a912-457a-9111-6b149ba493db
Zhong, Lisheng
255706e0-8092-4cac-a05b-94167a66729a
Zhang, Yunxia
b8e14578-7f2c-46e0-ab86-851b4988c3c3
Lei, Qingquan
ed3cb129-f44e-43aa-b47f-ef2ac42d6b75
October 2010
Li, Shengtao
e2d199c9-1c0c-40c8-aefb-ff3b3d8e4799
Yin, Guilai
39f54504-6b00-4965-bab2-1abe9a40d985
Chen, George
3de45a9c-6c9a-4bcb-90c3-d7e26be21819
Li, Jianying
faf6d6d4-a765-4b35-9399-973672933cc4
Bai, Suna
3008f08c-a912-457a-9111-6b149ba493db
Zhong, Lisheng
255706e0-8092-4cac-a05b-94167a66729a
Zhang, Yunxia
b8e14578-7f2c-46e0-ab86-851b4988c3c3
Lei, Qingquan
ed3cb129-f44e-43aa-b47f-ef2ac42d6b75
Li, Shengtao, Yin, Guilai, Chen, George, Li, Jianying, Bai, Suna, Zhong, Lisheng, Zhang, Yunxia and Lei, Qingquan
(2010)
Short-term Breakdown and Long-term Failure in Nanodielectrics: A Review.
IEEE Transactions on Dielectrics & Electrical Insulation, 17 (5), .
Abstract
Nanodielectrics, which are concentrated in polymer matrix incorporating nanofillers, have received considerable attention due to their potential benefits as dielectrics. In this paper, short-term breakdown and long-term failure properties of nanodielectrics have been reviewed. The characteristics of polymer matrix, types of nanoparticle and its content, and waveforms of the applied voltage are fully evaluated. In order to effectively comment on the published experimental data, a ratio k has been proposed to compare the electric properties of the nanodielectrics with the matrix and assess the effect for nanoparticles doping. There is evidence that the short-term breakdown properties of nanodielectrics show a strong dependence on the applied voltage waveforms. The polarity and the cohesive energy density (CED) of polymer matrix have a dramatic influence on the properties of nanodielectrics. Nanoparticle doped composites show a positive effect on the long-term failure properties, such as ageing resistance and partial discharge (PD) properties of nanocomposites are superior than microcomposites and the matrix. The larger the dielectric constant and CED of the matrix become, the more significant improvements in long-term performance appear. Based on the reported experimental results, we also present our understandings and propose some suggestions for further work.
Text
Nano-review.pdf
- Other
More information
Published date: October 2010
Keywords:
Nanodielectric, short-term breakdown, long-term degradation, cohesive energy density.
Organisations:
Electronics & Computer Science, EEE
Identifiers
Local EPrints ID: 271631
URI: http://eprints.soton.ac.uk/id/eprint/271631
ISSN: 1070-9878
PURE UUID: c7b90640-2a2e-481c-96da-4cb9cd8bfa47
Catalogue record
Date deposited: 14 Oct 2010 13:08
Last modified: 14 Mar 2024 09:36
Export record
Contributors
Author:
Shengtao Li
Author:
Guilai Yin
Author:
George Chen
Author:
Jianying Li
Author:
Suna Bai
Author:
Lisheng Zhong
Author:
Yunxia Zhang
Author:
Qingquan Lei
Download statistics
Downloads from ePrints over the past year. Other digital versions may also be available to download e.g. from the publisher's website.
View more statistics