An investigation of thermal, physical, and electrical properties and morphological behavior on nanoepoxy composite insulation

Research output: Contribution to journalArticleResearchpeer review

Authors

  • Zeinab Farhadinejad
  • Morteza Ehsani
  • S. Momenbellah
  • Mohammad Mahdi Saei Shirazi
  • S. M. B. Alavi
  • H. Borsi

Research Organisations

External Research Organisations

  • Iran Polymer and Petrochemical Institute
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Details

Original languageEnglish
Article number6243211
Pages (from-to)957-963
Number of pages7
JournalIEEE Transactions on Nanotechnology
Volume11
Issue number5
Publication statusPublished - 2012

Abstract

Epoxy nanocomposites prepared by casting epoxy reinforced with silica flour and stiff spherical alumina nanoparticles were investigated for its electrical, mechanical, and thermal properties as well as morphological behavior and the role of interfacial interaction between nanoparticles and the matrix on these properties. It was observed that the dielectric breakdown of the cast epoxy system is affected by interfacial interaction between nanoparticles and epoxy chains at room temperature. However, dielectric strength significantly changes at different temperatures. Also, it was realized that the interaction between nanoalumina and epoxy chains dominate the mechanical properties of the system such as tensile and flexural strength. However, thermal properties of the nanocomposite were mainly affected by the matrix and the degree of crosslink density between chains.

Keywords

    Cast epoxy system, dielectric properties, interfacial interaction, nanocomposite

ASJC Scopus subject areas

Cite this

An investigation of thermal, physical, and electrical properties and morphological behavior on nanoepoxy composite insulation. / Farhadinejad, Zeinab ; Ehsani, Morteza; Momenbellah, S. et al.
In: IEEE Transactions on Nanotechnology, Vol. 11, No. 5, 6243211, 2012, p. 957-963.

Research output: Contribution to journalArticleResearchpeer review

Farhadinejad, Z, Ehsani, M, Momenbellah, S, Saei Shirazi, MM, Alavi, SMB & Borsi, H 2012, 'An investigation of thermal, physical, and electrical properties and morphological behavior on nanoepoxy composite insulation', IEEE Transactions on Nanotechnology, vol. 11, no. 5, 6243211, pp. 957-963. https://doi.org/10.1109/TNANO.2012.2209458
Farhadinejad, Z., Ehsani, M., Momenbellah, S., Saei Shirazi, M. M., Alavi, S. M. B., & Borsi, H. (2012). An investigation of thermal, physical, and electrical properties and morphological behavior on nanoepoxy composite insulation. IEEE Transactions on Nanotechnology, 11(5), 957-963. Article 6243211. https://doi.org/10.1109/TNANO.2012.2209458
Farhadinejad Z, Ehsani M, Momenbellah S, Saei Shirazi MM, Alavi SMB, Borsi H. An investigation of thermal, physical, and electrical properties and morphological behavior on nanoepoxy composite insulation. IEEE Transactions on Nanotechnology. 2012;11(5):957-963. 6243211. doi: 10.1109/TNANO.2012.2209458
Farhadinejad, Zeinab ; Ehsani, Morteza ; Momenbellah, S. et al. / An investigation of thermal, physical, and electrical properties and morphological behavior on nanoepoxy composite insulation. In: IEEE Transactions on Nanotechnology. 2012 ; Vol. 11, No. 5. pp. 957-963.
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abstract = "Epoxy nanocomposites prepared by casting epoxy reinforced with silica flour and stiff spherical alumina nanoparticles were investigated for its electrical, mechanical, and thermal properties as well as morphological behavior and the role of interfacial interaction between nanoparticles and the matrix on these properties. It was observed that the dielectric breakdown of the cast epoxy system is affected by interfacial interaction between nanoparticles and epoxy chains at room temperature. However, dielectric strength significantly changes at different temperatures. Also, it was realized that the interaction between nanoalumina and epoxy chains dominate the mechanical properties of the system such as tensile and flexural strength. However, thermal properties of the nanocomposite were mainly affected by the matrix and the degree of crosslink density between chains.",
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