Multi-Functional Metallic/FIR-PET Wrapped Yarn and Woven Fabric: Electromagnetic Shielding Effectiveness, Mechanical and Electrical Properties

Jia Horng Lin; Ting An Lin; Chien Teng Hsieh; Jan Yi Lin; Ching Wen Lou

doi:10.4028/www.scientific.net/AMM.749.265

Paper Titles

Effects of Wrapping Number of Constituent Functional Yarns on Moisture Transferring/Antibacterial Knits
p.249

Evaluation Mechanical and Sound Absorption of PET/PP and Nylon/PP Nonwoven Fabrics
p.253

Lamination of Glass Fiber Woven Fabrics and High Density Polyethylene/Clay Composition: Preparation, Tensile Properties, and Crystallization Properties
p.257

Manufacturing and Mechanical Property Evaluations of PLA/Carbon Fiber/Glass Fiber Composites
p.261

Multi-Functional Metallic/FIR-PET Wrapped Yarn and Woven Fabric: Electromagnetic Shielding Effectiveness, Mechanical and Electrical Properties
p.265

Organic/Inorganic Acoustic-Absorbing/Thermal Insulating Fiber-Reinforced PU Composite Foam Boards
p.270

Preliminary Study of Puncture-Resisting Needle-Punched 3D Composites with Varying Reinforcements
p.274

Preparation Techniques and Property Evaluations of Highly Air Permeable Needle-Punched Geotextiles
p.278

The Study of Health and Insulation Composite Recycling Far Infrared Fiber Laminated Non-Woven
p.282

HomeApplied Mechanics and MaterialsApplied Mechanics and Materials Vol. 749Multi-Functional Metallic/FIR-PET Wrapped Yarn and...

Multi-Functional Metallic/FIR-PET Wrapped Yarn and Woven Fabric: Electromagnetic Shielding Effectiveness, Mechanical and Electrical Properties

Abstract:

This study uses 0.08mm copper wire and nickel-coated copper wire as the core and 75 D far infrared filament as the wrapped material to manufacture Cu/FIR-PET wrapped yarn, Ni-Cu/FIR-PET wrapped yarn and Ni-Cu/Cu/FIR-PET wrapped yarn. The three optimum metallic/FIR-PET wrapped yarns are then weaving into Cu/FIR-PET woven fabrics, Ni-Cu/FIR-PET woven fabrics and Ni-Cu/Cu/FIR-PET woven fabrics. Tensile property of metallic/FIR-PET wrapped yarns, electrical resistance of metallic/FIR-PET wrapped yarns, surface resistivity of metallic/FIR-PET woven fabrics and electromagnetic shielding effectiveness of metallic/FIR-PET woven fabric are discussed. According to the results, the optimum tenacity and elongation are chosen as 7 turns/ cm, electrical resistance of Ni-Cu/Cu/FIR-PET wrapped presents the best value, Cu/FIR-PET woven fabric has the lowest surface resistivity and Ni-Cu/Cu/FIR-PET woven fabric shows the best EMSE at 37.61 dB when the laminating-layer number is double layer and laminating at 90 ̊. In this study, three kinds of metallic/FIR-PET woven fabrics are successfully manufactured and looking forward to applying on industrial domains.

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Periodical:

Applied Mechanics and Materials (Volume 749)

Pages:

265-269

DOI:

https://doi.org/10.4028/www.scientific.net/AMM.749.265

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Online since:

April 2015

Authors:

Jia Horng Lin, Ting An Lin, Chien Teng Hsieh, Jan Yi Lin, Ching Wen Lou*

Keywords:

Conductive Woven Fabric, Conductive Wrapped Yarn, Copper Filament, EMSE, Nickel-Coated Copper Filament

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