• Title/Summary/Keyword: 플렉서블 케이블

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A Development of High-Durability Copper Foil Materials for Clock Spring Cable Using Grain Size Control Techniques (결정립 제어 기술을 이용한 클락스프링 케이블용 고내구 동박 소재 개발)

  • Chae, Eul Yong;Lee, Ho Seung
    • Journal of Auto-vehicle Safety Association
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    • v.13 no.3
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    • pp.20-25
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    • 2021
  • Flexural resistance evaluation of FFC (Flexible Flat Cable) was performed according to the grain size of rolled copper foil by adding 0.1wt% silver (Ag) and electrodeposited copper foil by slitting method after heat-treatment. These methods are aimed at enhancing the flexural durability of the FFC by growing the grain size of copper foil. By increasing the grain size of the copper foil and minimizing the miss-orientation at grain boundaries, the residual stress at the grain boundaries of the copper foil is reduced and the durability of the FFC is improved. Maximizing an average grain size of copper foil can be got a good solution in order to enhance the durability of the FFC or FPCB (Flexible Printed Circuit Board).

High-performance of Flexible Supercapacitor Cable Based on Microwave-activated 3D Porous Graphene/Carbon Thread (마이크로웨이브 활성화 3차원 다공성 그래핀/탄소실 기반의 고성능 플렉서블 슈퍼커패시터 케이블)

  • Park, Seung Hwa;Choi, Bong Gill
    • Applied Chemistry for Engineering
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    • v.30 no.1
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    • pp.23-28
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    • 2019
  • We report a supercapacitor cable, which consists of three-dimensional (3D) porous graphene coated onto the surface of carbon thread. The 3D porous framework of graphene was constructed by microwave-activated process using a graphene oxide-coated carbon thread. The use of microwave irradiation enabled to convert graphene oxide into reduced graphene oxide without any reducing agents and activate graphene sheets into exfoliated and porous graphene sheets. Combining two wire electrodes with a polymer gel electrolyte successfully completed supercapacitor device in a form of cable construction. The supercapacitor cables were highly flexible, and thus can be transformed into various shapes of devices and be integrated into textile items. A high area-capacitance of 38.1 mF/cm was obtained at a scan rate of 10 mV/s. This capacitance was retained 88% of its original value at 500 mV/s. The cycle life was also demonstrated by repeating a charge/discharge process during 10,000 cycles even under bent states, showing a high capacitance retention of 96.5%.