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"Ground system"

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"Ground system"

Regular Paper : Anti-corrosion Property of the CNT/PVDF Composite Coating Films for Preventing the Corrosion of the Ground System
Young Taek Lim, Paik Kyun Shin, Sun Kyu Choi, Sun Woo Lee
J Electr Electron Mater 2014;27(11):736-739.   Published online November 1, 2014
In this paper, we propose a enhanced anti-corrosion property of the ground system by coatingthe CNT/PVDF composite film on it. Polymer material used for preventing the corrosion of groundsystem is polyvinylidene fluoride (PVDF), and conducting filler for obtaining conductivity of the compositefilm is multi-walled carbon nanotubes (MWCNTs). The MWCNTs were dispersed in the organic solventof methyl ethyl ketone 2-butanone (MEK) with different concentration ratios, and the PVDF was solvedin the MEK solvent with constant concentration ratio of 1 wt%. The CNT/PVDF composite solution wasperpared by mixing and re-dispersing the CNT solution and the PVDF solution. Finally, the CNT/PVDFcomposite films were fabricated by the spray coating method using the above composite solution. Electrical conductivity, surface states, and anti-corrosion property of the CNT/PVDF composite filmscoated on the Cu substrate were evaluated. We found that the CNT/PVDF composite film showedrelatively low resistance, hydrophobic surface state, and chemical stability. Consequently, we couldimprove the anti-corrosion property and maintain the electrical conductivity of the ground system bycoating the CNT/PVDF composite film on it.
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Design and Fabrication of a Wideband Ground Impedance Meter
Dae Won Park, Gyung Suk Kil, Ju Seop Han, Un Yong Jang, Young Jun Gil
J Electr Electron Mater 2010;23(10):793-797.   Published online October 1, 2010
The basic performance of the ground system is evaluated as the ground resistance by applying low frequency current below 1 kHz. However, characteristics of the ground system should be analyzed by high frequency current up to 1 MHz since transient currents having a few hundred kHz component flow during a line-to-ground fault and/or a lightning strike. This paper deals with the design and fabrication of a wideband ground impedance meter (WGIM) which measures the impedance of ground systems in ranges from 65 Hz to 1.28 MHz. Also, a noise elimination algorithm using a digital bandpass filter is proposed. The maximum error of the WGIM is 4.91% in the measurement frequency range.
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