ANALYSIS OF SHIELDING AND ANTISTATIC PROPERTIES OF KNITTED FABRICS FOR SPECIAL PURPOSE

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Published: Aug 31, 2022
Keywords:
трикотажные полотна, антистатический эффект, экранирование, СВЧ-волны, комбинированная электропроводящая пряжа knitted fabrics, antistatic effect, shielding, microwave waves, combined electrically conductive yarn

Main Article Content

P. KOSTIN
Vitebsk State University of Technology
Y. ZAMASTOTSKY
Международный университет «МИТСО», Витебск
I. RASSOHINA
Vitebsk State University of Technology

Abstract

This article is devoted to the analysis of the shielding and antistatic properties of knitted fabrics with combined electrically conductive yarns. The article presents studies of electrically conductive yarn for physical, mechanical and electrophysical properties, describes the composition and choice of the type of weaving of knitted fabrics and presents the results of an experimental study of the dependence of the cell density of knitted fabrics on the antistatic and shielding properties of knitted fabrics.

Article Details

How to Cite
KOSTIN, P., ZAMASTOTSKY, Y., & RASSOHINA, I. (2022). ANALYSIS OF SHIELDING AND ANTISTATIC PROPERTIES OF KNITTED FABRICS FOR SPECIAL PURPOSE. Vestnik of Polotsk State University. Part B. Industry. Applied Sciences, (10), 46-50. Retrieved from https://journals.psu.by/industry/article/view/1579
Issue
No. 10 (2022)
Section
Machine-building and theoretical engineering
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This work is licensed under a Creative Commons Attribution 4.0 International License.

Author Biographies

P. KOSTIN, Vitebsk State University of Technology

канд. тех. наук, доц.

Y. ZAMASTOTSKY, Международный университет «МИТСО», Витебск

канд. тех. наук, доц.

I. RASSOHINA, Vitebsk State University of Technology

канд. тех. наук, доц.

References

Cheng, К.В., Cheng, T.W., Lee, K.C., Ueng, T.H. & Hsing, W.H. (2003). Effect of Yarn Constituent and Fabric Specifications on Electrical Properties of Hybrid Woven Fabrics. Composites Part A: Applied Science and Manufacturing, 34(10), 971–978. DOI: 10.1016/S1359-835X(03)00178-7

Ueng, T.H. & Cheng, К.B. (2001). Friction Core Spun Yarns for Electrical Properties of Woven Fabrics. Composites Part A: Applied Science and Manufacturing, 32(10), 1492–1496. DOI: 10.1016/S1359-835X(01)00048-3

Zamostotskiy, Ye.G., Kostin, P.A. & Kogan, A.G. (2011). Tekhnologiya polucheniya kombinirovannykh termostoykikh elektroprovodyashchikh pryazhi i nitey dlya tkaney spetsialʹnogo naznacheniya [Technology for obtaining combined heat-resistant electrically conductive yarns and threads for special-purpose fabrics]. Vestnik Vitebskogo gosudarstvennogo tekhnologicheskogo universiteta [Bulletin of the Vitebsk State Technological University], (20), 56–64. (In Russ., abstr. in Engl.).

Kostin, P.A., Dyagilev, A.S. & Kogan, A.G. (2012). Optimization of the discretization process in the production of an electrically conducting heat-resistant combination yarn. Fibre Chemistry, 43(5), 362. DOI: 10.1007/s10692-012-9365-0

Charkovskiy, A.V. (2012). Tekhnologiya i oborudovaniye trikotazhnogo proizvodstva [Technology and equipment of knitwear production]. Vitebsk: VGTU. (In Russ.).

Dalidovich, A.S. (1970). Osnovy teorii vyazaniya [Fundamentals of the theory of knitting]. Moscow: Legkaya industriya. (In Russ.).

Charkovskiy, A.V. (2005). Osnovy protsessov vyazaniya [Fundamentals of knitting processes]. Vitebsk: VGTU. (In Russ.).