김택희 scite author profile

김택희

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The Characteristics of the Over-current of Shielded Cable and the Fusing Current of Carbon Fiber

김영석¹,

김택희²,

김종민³

et al. 2016

The Transactions of The Korean Institute of Electrical Engineer

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-In this paper, we investigated the fusing current of carbon fiber and thermal properties of carbon fiber and metal shielded cable due to over-current. The fusing current value for the metal-coated carbon fiber was 5.3A in 3K, 7.4K and 13.05A in 12K. And if it exceeds 50% of the fusing current was broken with a rapid voltage rise. In the case of carbon fiber shielded cable, the temperature of the PVC sheath increased somewhat in the allowable current range. However, the temperature of PVC sheath rapidly increased to 128.1 in the 2 time allowable current range. This value is 10 higher than the temperature of PVC sheath on the metal screen cable, because the resistance of the carbon fiber is high and heat transfer rate is slow.

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The Electromagnetic Shield Properties of 600V class Low Voltage Cable Using Carbon Fiber

김영석¹,

김택희²,

김종민³

et al. 2017

The Transactions of The Korean Institute of Electrical Engineer

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-This study used general carbon fibers(CF), which can be utilized for a low voltage cable screen, as well as metal-coated carbon fibers(MCF) to make cables and analyzed the properties of electromagnetic effectiveness. Both braid CF and MCF cables with 3,000 strands, 16 spindles, and braid density of 90% or over were adopted. The tape-type MCF specimens were spread into a tape(width: 15mm) using a hot melt to make a cable. The shield effectiveness was measured up to the 1GHz range in accordance with IEC 62153-4-6; braid shielded cables featured a superior shielding effect at 63dB than tape-type shielded cables. That was because the tape-type shielded cable has relatively more gaps and holes between carbon fibers than the braid type, resulting in a more inflow or emission of electromagnetic waves. In the case of braid cables, the characteristics of their electromagnetic waves were enhanced, with higher spindles and higher conductivity of carbon fibers. The shield effectiveness of the MCF shielded cable, however, was lower than that of tin-coated one.

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김택희

The Characteristics of the Over-current of Shielded Cable and the Fusing Current of Carbon Fiber

The Electromagnetic Shield Properties of 600V class Low Voltage Cable Using Carbon Fiber

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