Effect of carbon blacks with various structures on electrical properties of filled ethylene-propylene-diene rubber

Zonghuan Li; Jun Zhang; Shuangjun Chen

doi:10.1016/j.elstat.2008.11.002

Effect of carbon blacks with various structures on electrical properties of filled ethylene-propylene-diene rubber

Zonghuan Li, Jun Zhang, Shuangjun Chen

College of Materials Science and Engineering

Nanjing Tech University

Research output: Contribution to journal › Article › peer-review

19 Scopus citations

Abstract

The effect of carbon blacks on the electrical properties of filled EPDM is investigated by comparing five types of carbon blacks. Electrical tests show that EPDM filled with carbon black having a large value of surface area (conductive carbon black, CCB) displays the low volume and surface resistivities, and easily succumbs to dielectric breakdown. EPDM/CCB composites show the lowest dielectric constant and highest dissipation factor. Hence, a CCB with large surface area and high content of sulphur on the surface is suitable for conductive polymers; whereas, EPDM filled with other carbon blacks is useful for insulation applications.

Original language	English
Pages (from-to)	73-75
Number of pages	3
Journal	Journal of Electrostatics
Volume	67
Issue number	1
DOIs	https://doi.org/10.1016/j.elstat.2008.11.002
State	Published - Feb 2009

Keywords

Conductive carbon black
Dielectric constant
Dielectric strength
Dissipation factor
EPDM
Electrical resistivity

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10.1016/j.elstat.2008.11.002

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title = "Effect of carbon blacks with various structures on electrical properties of filled ethylene-propylene-diene rubber",

abstract = "The effect of carbon blacks on the electrical properties of filled EPDM is investigated by comparing five types of carbon blacks. Electrical tests show that EPDM filled with carbon black having a large value of surface area (conductive carbon black, CCB) displays the low volume and surface resistivities, and easily succumbs to dielectric breakdown. EPDM/CCB composites show the lowest dielectric constant and highest dissipation factor. Hence, a CCB with large surface area and high content of sulphur on the surface is suitable for conductive polymers; whereas, EPDM filled with other carbon blacks is useful for insulation applications.",

keywords = "Conductive carbon black, Dielectric constant, Dielectric strength, Dissipation factor, EPDM, Electrical resistivity",

author = "Zonghuan Li and Jun Zhang and Shuangjun Chen",

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AU - Li, Zonghuan

AU - Zhang, Jun

AU - Chen, Shuangjun

PY - 2009/2

Y1 - 2009/2

N2 - The effect of carbon blacks on the electrical properties of filled EPDM is investigated by comparing five types of carbon blacks. Electrical tests show that EPDM filled with carbon black having a large value of surface area (conductive carbon black, CCB) displays the low volume and surface resistivities, and easily succumbs to dielectric breakdown. EPDM/CCB composites show the lowest dielectric constant and highest dissipation factor. Hence, a CCB with large surface area and high content of sulphur on the surface is suitable for conductive polymers; whereas, EPDM filled with other carbon blacks is useful for insulation applications.

AB - The effect of carbon blacks on the electrical properties of filled EPDM is investigated by comparing five types of carbon blacks. Electrical tests show that EPDM filled with carbon black having a large value of surface area (conductive carbon black, CCB) displays the low volume and surface resistivities, and easily succumbs to dielectric breakdown. EPDM/CCB composites show the lowest dielectric constant and highest dissipation factor. Hence, a CCB with large surface area and high content of sulphur on the surface is suitable for conductive polymers; whereas, EPDM filled with other carbon blacks is useful for insulation applications.

KW - Conductive carbon black

KW - Dielectric constant

KW - Dielectric strength

KW - Dissipation factor

KW - EPDM

KW - Electrical resistivity

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M3 - 文章

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SN - 0304-3886

VL - 67

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EP - 75

JO - Journal of Electrostatics

JF - Journal of Electrostatics

IS - 1

ER -

Effect of carbon blacks with various structures on electrical properties of filled ethylene-propylene-diene rubber

Abstract

Keywords

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