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Study on properties of electromagnetic shielding yarns and fabrics

Xinjin Liu (College of Textile Science and Engineering, Jiangnan University, Wuxi, China)
Xinxin Yan (College of Textile Science and Engineering, Jiangnan University, Wuxi, China)
Xuzhong Su (College of Textile Science and Engineering, Jiangnan University, Wuxi, China)
Juan Song (School of Science, Jiangnan University, Wuxi, China)

International Journal of Clothing Science and Technology

ISSN: 0955-6222

Article publication date: 19 March 2020

Issue publication date: 28 August 2020

214

Abstract

Purpose

With the popularization of electronic products, the electromagnetic radiation pollution has been the fourth largest pollution after water, air and noise pollution. Therefore, electromagnetic shielding property of textiles is attracting more attention. In this paper, the properties of electromagnetic shielding yarns and fabrics were studied.

Design/methodology/approach

Ten kinds of yarn, stainless steel short fiber and polyester blend yarn with three different blending ratios T/S 90/10, T/S 80/20 and T/S 70/30, stainless steel short fiber, polyester and cotton blend yarn with blending ratio C/T/S 35/35/30, core-spun yarn with one 30 um stainless steel filament C/T28tex/S(30 um), core-spun yarn with two 15 um stainless steel filaments (C/T28tex/S(15 um)/S(15 um)), twin-core-spun yarn with one 30 um stainless steel filament and one 50D spandex filament C/T28tex/S(30 um)/SP(50D), sirofil wrapped yarn with one 30 um stainless steel filament feeding from left S(30 um)+C/T28tex, sirofil wrapped yarn with one 30 um stainless steel filament feeding from right C/T28tex+S(30 um), sirofil wrapped yarn with two 15 um stainless steel filaments feeding from two sides S(15 um)+C/T28tex+ S(15 um), were spun. The qualities of spun yarns were measured. Then, for analyzing the electromagnetic shielding properties of fabrics made of different spun yarns, 20 kinds of fabrics were woven.

Findings

The tested results show that comparing to the T/S 80/20 blend yarn, the resistivity of composite yarns with the same ratio of the stainless steel filament is smaller. The possible reason is that comparing to the stainless steel short fiber, the conductivity of stainless steel filament is better because of the continuous distribution of stainless steel in the filament. Comparing with the core-spun yarn, the conductivity of the sirofil wrapped yarn is a little better. Comparing to the fabric woven by the blend yarn, the electromagnetic shielding of the fabric woven by the composite yarn is better, and comparing to the fabric woven by the core-spun yarn, the electromagnetic shielding of the fabric woven by the sirofil yarn is a little better. The possible reason is that the conduction network can be produced by the stainless steel filament wrapped on the staple fiber yarn surface in the fabric, and the electromagnetic wave can be transmitted in the network.

Originality/value

In this paper, the properties of electromagnetic shielding yarns and fabrics were studied. Ten kinds of yarn, including three stainless steel short fiber and polyester blend yarns, one stainless steel short fiber, polyester and cotton blend yarn, two core-spun yarns, one twin-core-spun yarn, three sirofil wrapped yarn, were spun. Then, for analyzing the electromagnetic shielding properties of fabrics made of different spun yarns, 20 kinds of fabrics were woven. The effects of fabric warp and weft densities, fabric structures, yarn kinds, yarn distributions in the fabric on electromagnetic shielding were analyzed.

Keywords

Acknowledgements

This work was supported by the Foundation of Jiangsu Advanced Textile Engineering Technology Center XJFZ/2018/09, Prospective industry-university-research project of Jiangsu Province (BY2018185), Henan collaborative innovation of textile and clothing industry (hnfz14002), the Fundamental Research Funds for the Central Universities (No. JUSRP517301A).

Citation

Liu, X., Yan, X., Su, X. and Song, J. (2020), "Study on properties of electromagnetic shielding yarns and fabrics", International Journal of Clothing Science and Technology, Vol. 32 No. 5, pp. 677-690. https://doi.org/10.1108/IJCST-09-2019-0134

Publisher

:

Emerald Publishing Limited

Copyright © 2020, Emerald Publishing Limited

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