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Influence of xylene on the dielectric response of an organoclay-containing nanocomposite
Influence of xylene on the dielectric response of an organoclay-containing nanocomposite
by Shaw, Allison V. , Vaughan, Alun S. , Andritsch, Thomas
in clay / composite system / copolymer / DC dielectric breakdown strength measurements / Dielectric breakdown / dielectric effect / Dielectric properties / dielectric relaxation / dielectric response / dielectric spectroscopy / Dielectric strength / electric breakdown / electric strength / Electrical properties / ethylene / filled polymers / high field conditions / Investigations / Light diffraction / low molar mass impurities / Morphology / Nanocomposites / organoclay-containing nanocomposite / permittivity / polyethylene / polymer blends / Polymers / Research Article / Solvents / synergistic response / unfilled polymer blend / Vinyl acetate / Xylene / X‐ray diffraction / X‐ray diffraction data
2020
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Influence of xylene on the dielectric response of an organoclay-containing nanocomposite
by Shaw, Allison V. , Vaughan, Alun S. , Andritsch, Thomas
in clay / composite system / copolymer / DC dielectric breakdown strength measurements / Dielectric breakdown / dielectric effect / Dielectric properties / dielectric relaxation / dielectric response / dielectric spectroscopy / Dielectric strength / electric breakdown / electric strength / Electrical properties / ethylene / filled polymers / high field conditions / Investigations / Light diffraction / low molar mass impurities / Morphology / Nanocomposites / organoclay-containing nanocomposite / permittivity / polyethylene / polymer blends / Polymers / Research Article / Solvents / synergistic response / unfilled polymer blend / Vinyl acetate / Xylene / X‐ray diffraction / X‐ray diffraction data
2020
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Influence of xylene on the dielectric response of an organoclay-containing nanocomposite
Influence of xylene on the dielectric response of an organoclay-containing nanocomposite
by Shaw, Allison V. , Vaughan, Alun S. , Andritsch, Thomas
in clay / composite system / copolymer / DC dielectric breakdown strength measurements / Dielectric breakdown / dielectric effect / Dielectric properties / dielectric relaxation / dielectric response / dielectric spectroscopy / Dielectric strength / electric breakdown / electric strength / Electrical properties / ethylene / filled polymers / high field conditions / Investigations / Light diffraction / low molar mass impurities / Morphology / Nanocomposites / organoclay-containing nanocomposite / permittivity / polyethylene / polymer blends / Polymers / Research Article / Solvents / synergistic response / unfilled polymer blend / Vinyl acetate / Xylene / X‐ray diffraction / X‐ray diffraction data
2020

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Influence of xylene on the dielectric response of an organoclay-containing nanocomposite
Influence of xylene on the dielectric response of an organoclay-containing nanocomposite
Journal Article

Influence of xylene on the dielectric response of an organoclay-containing nanocomposite

Shaw, Allison V.,
Vaughan, Alun S.,
Andritsch, Thomas
2020
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Overview
The dielectric effect, investigated using dielectric spectroscopy and DC dielectric breakdown strength measurements, of introducing xylene into a composite system containing polyethylene, a co-polymer of ethylene and vinyl acetate and an organoclay can be understood in light of X-ray diffraction data. In dielectric spectroscopy, although organoclay alone changes the dielectric response of the polymer blend and xylene has no effect on the unfilled polymer blend, when both xylene and organoclay are present, a synergistic response is revealed at the 1 Vrms amplitude voltage used to acquire the dielectric data. In contrast to this, in DC, dielectric breakdown strength measurements revealed that, under high field conditions, both the xylene and organoclay, independently, caused a decreased breakdown strength. This work was undertaken in order to examine the generality of the possible effects of labile, low molar mass impurities on electrical properties of comparable systems, which may be processed through solvent-based routes.
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Publisher
The Institution of Engineering and Technology,John Wiley & Sons, Inc,Wiley
Subject

clay

/ composite system

/ copolymer

/ DC dielectric breakdown strength measurements

/ Dielectric breakdown

/ dielectric effect

/ Dielectric properties

/ dielectric relaxation

/ dielectric response

/ dielectric spectroscopy

/ Dielectric strength

/ electric breakdown

/ electric strength

/ Electrical properties

/ ethylene

/ filled polymers

/ high field conditions

/ Investigations

/ Light diffraction

/ low molar mass impurities

/ Morphology

/ Nanocomposites

/ organoclay-containing nanocomposite

/ permittivity

/ polyethylene

/ polymer blends

/ Polymers

/ Research Article

/ Solvents

/ synergistic response

/ unfilled polymer blend

/ Vinyl acetate

/ Xylene

/ X‐ray diffraction

/ X‐ray diffraction data

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