Electromagnetic interference shielding effectiveness of sol-gel coating on Cu-plated fabrics

Kandasaamy, P. V.; Rameshkumar, M.

doi:10.1080/00405000.2020.1785607

Cited by 7 publications

(1 citation statement)

References 27 publications

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“…At present, with the development of material technology, some nano-materials with magnetic field shielding characteristics have been developed [12][13][14]. Woven products with electromagnetic shielding effects have also been developed in the textile field [15]. However, the cost of these materials is high.…”

Section: Introductionmentioning

confidence: 99%

Magnetic Field Analysis and Optimization of the Gauge of Hybrid Maglev Needles

et al. 2023

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Compared with the traditional needle driving method, hybrid maglev needle driving is a new weft knitting machine technology, which alleviates the problems of noise, heat, and needle breakage. However, in the structure of needle arrays, magnetic disturbance between permanent magnet knitting needles leads to unstable needle control. Therefore, this paper attempts to solve this problem through a performance analysis of hybrid maglev needle driving. Based on the structure, the magnetic force distribution model of permanent magnet knitting needles is established. Aiming at the magnetic interference between magnetic arrays, a magnetic shielding material, silicon steel with a high permeability, is proposed to optimize the driving structure of a magnetic levitation needle array. Through simulation and experimental analysis, the influence of different silicon steel thicknesses on magnetic field shielding is analyzed. It is concluded that the optimal value of a silicon steel sheet is 1 mm and that the optimal gauge of hybrid maglev knitting needles is 8 mm. Finally, compared with the theoretical and simulation analysis, the experimental results have indicated that the proposed optimized structure of the gauge of hybrid maglev knitting needles is correct and effective.

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Section: Introductionmentioning

confidence: 99%

Magnetic Field Analysis and Optimization of the Gauge of Hybrid Maglev Needles

et al. 2023

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Mapping the Progress in Flexible Electrodes for Wearable Electronic Textiles: Materials, Durability, and Applications

Liman

Islam

Hossain

2021

Adv Elect Materials

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With the advancement of nanotechnology and electroactive materials, conventional textiles have transformed into a versatile wearable electronic platform that will inevitably escalate the development of next‐generation flexible electronics. Integration of nanoscale conductive particles such as polymers, metals, or nanocarbons into different structural textile design has simplified the way of personal interactive communications and portable sensing by distributing superior stretchability and functionality in a smart textile device. However, for the real‐life application, it is crucial to recognize the functional reliability of wearable textile electronics. This review comprehensively summarizes the recent progress in electronic textiles (e‐textiles) using different electroactive materials and textile architectures for numerous wearable applications. The first section highlights different textile architectures used in e‐textiles and their various properties. Various electroactive polymers from carbon, metal, and conductive polymers, including their electromechanical properties and wash durability, are then discussed. Subsequently, progress in textile‐based energy harvesting and storage, personal thermal management, flexible sensing, electrocardiography (ECG), electromagnetic interference shielding are presented. Finally, the remaining challenges regarding the current materials and processing strategies are pointed out, and practical strategies to fully realize e‐textile systems are suggested.

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Fabrication of conductive polyimide/metal composite fibers for high temperature EMI shielding

Li,

Zhou,

et al. 2025

Applied Surface Science

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Electromagnetic interference shielding effectiveness of sol-gel coating on Cu-plated fabrics

Cited by 7 publications

References 27 publications

Magnetic Field Analysis and Optimization of the Gauge of Hybrid Maglev Needles

Magnetic Field Analysis and Optimization of the Gauge of Hybrid Maglev Needles

Mapping the Progress in Flexible Electrodes for Wearable Electronic Textiles: Materials, Durability, and Applications

Fabrication of conductive polyimide/metal composite fibers for high temperature EMI shielding

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