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Electrical conductivity and stealth characteristics of copper-sputtered clothing materials - Focusing on changes in the pore size of clothing materials - KCI 등재

구리 스퍼터링 의류소재의 전기전도성과 스텔스 특성 - 의류소재 기공 크기 변화를 중심으로 -

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  • URLhttps://db.koreascholar.com/Article/Detail/419962
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복식문화연구 (The Research Journal of the Costume Culture)
복식문화학회 (The Costume Culture Association)
초록

This research studied the electrical characteristics, IR transmission characteristics, stealth functions, and thermal characteristics of infrared thermal-imaging cameras of copper-sputtered samples. Nylon samples were prepared for each density as a base material for copper-sputtering treatment. Copper-sputtered NFi, NM1, NM2, NM3, NM4, and NM5, showed electrical resistance of 0.8, 445.7, 80.7, 29.7, 0.3, and 2.2 Ω, respectively, all of which are very low values; for the mesh sample, the lower the density, the lower the electrical resistance. Measuring the IR transmittance showed that the infrared transmittance of the copper-sputtered samples was significantly reduced compared to the untreated sample. Compared to the untreated samples, the transmittance went from 92.0–64.1%. When copper sputtered surface was directed to the IR irradiator, the IR transmittance went from 73.5 to 43.8%. As the density of the sample increased, the transmittance tended to decreased. After the infrared thermal imaging, the absolute values of △R, △G, and △B of the copper phase increased from 2 to 167, 98 to 192, and 7 to 118, respectively, and the closer the density of the sample (NM5→NFi), the larger the absolute value. This proves that the dense copper phase-up sample has a stealth effect on the infrared thermal imaging camera. It is believed that the copper-sputtered nylon samples produced in this study have applications in multifunctional uniforms, bio-signal detection sensors, stage costumes, etc.

목차
Abstract
I. Introduction
Ⅱ. Research Method
    1. Materials
    2. Characterization
Ⅲ. Results and Discussions
    1. Surface properties
    2. Electrical conductivity
    3. Transmittance of IR (%)
    4. IR camera stealth function based on heat transfer
Ⅳ. Conclusions
References
저자
  • Hye Ree Han(Lecturer, Dept. of Beauty Art Care, Graduate School of Dongguk University) | 한혜리 (동국대학교 대학원 뷰티아트케어학과 강사) Corresponding author