Influence of BaTiO3 Nanoparticles on Dielectric, Thermophysical and Mechanical Properties of Ethylene-Vinyl Acetate Elastomer/BaTiO3 Microcomposites | IEEE Journals & Magazine | IEEE Xplore
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Journals & Magazines >IEEE Transactions on Dielectr... >Volume: 18 Issue: 2

Influence of BaTiO3 Nanoparticles on Dielectric, Thermophysical and Mechanical Properties of Ethylene-Vinyl Acetate Elastomer/BaTiO3 Microcomposites

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Xingyi Huang; Liyuan Xie; Zhiwei Hu; Pingkai Jiang
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Abstract:

This paper reports on the effects of nano-BaTiO3 particles on the dielectric, thermophysical (thermal conductivity) and mechanical properties of ethylene-vinyl acetate (E...Show More

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Abstract:

This paper reports on the effects of nano-BaTiO3 particles on the dielectric, thermophysical (thermal conductivity) and mechanical properties of ethylene-vinyl acetate (EVM) elastomer/BaTiO3 microcomposites. The EVM composites with nano-, micro- and nano/micro hybrid BaTiO3 fillers have been prepared by melt compounding. The results showed that the addition of nano-BaTiO3 particles to micro- BaTiO3/EVM composites could lead to an enhancement in permittivity, thermal conductivity and mechanical strength when compared with the micro-BaTiO3/EVM composites with the same total filler content, whereas the dielectric strength did not show significant difference and the dielectric loss tangent increased slightly. The Maxwell-Garnett effective medium model was used to analyze the BaTiO3 concentration dependence of relative permittivity of the composites.
Published in: IEEE Transactions on Dielectrics and Electrical Insulation ( Volume: 18, Issue: 2, April 2011)
Page(s): 375 - 383
Date of Publication: 28 March 2011

ISSN Information:

DOI: 10.1109/TDEI.2011.5739440
Citations are not available for this document.
Contents

I. Introduction

Fillers are extensively used in polymer composites for electrical insulation, not only to enhance the mechanical performance but also to improve other desired properties, such as electrical and thermal properties [1]. The mechanical enhancement of polymer (e.g., elastomer, rubber) composites arises from the nanoscopic dimensions of the fillers and the strong filler-polymer interaction. However, the electrical and thermophysical properties of the composites are primarily determined by the inherent properties of the different components that constitute the materials [2]–[4].

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