Textile materials having electrically conductive features come to the forefront in the development of electromagnetic shielding products in the literature.
Yarns and fabrics containing high-conductivity and low surface/volume resistivity metal wires among these textile materials became important.
However, no research has been found about yarns containing tungsten wires and fabric structures composed of these yarns.
Point of origin of this study consisted of tungsten having similar electrical resistivity and electrically conductive properties with metals used for electromagnetic shielding such as silver, nickel and copper.
The aim of this paper was to evaluate and validate fabrics composed of tungsten with conductivity properties as an alternative electromagnetic shielding product.
From this point of view, three different core yarns were produced using Inox, Copper and Tungsten wires.
In addition to these core yarns, three different dualcore yarns were also produced with elastane and metal wires.
Furthermore, 100% CO (Cotton) yarn and core yarn containing elastane were selected as the control group.
Thus, obtained yarn set was used as weft material for the fabric production.
The properties of produced yarns and fabrics were determined and EMSE performances were examined comparatively.
The findings from this study indicate that the use of tungsten core yarn in the fabric structure can be an alternative to existing products for electromagnetic shielding.
This research will serve about products containing tungsten for electromagnetic shielding as a base for future works.
Yarns and fabrics containing high-conductivity and low surface/volume resistivity metal wires among these textile materials became important.
However, no research has been found about yarns containing tungsten wires and fabric structures composed of these yarns.
Point of origin of this study consisted of tungsten having similar electrical resistivity and electrically conductive properties with metals used for electromagnetic shielding such as silver, nickel and copper.
The aim of this paper was to evaluate and validate fabrics composed of tungsten with conductivity properties as an alternative electromagnetic shielding product.
From this point of view, three different core yarns were produced using Inox, Copper and Tungsten wires.
In addition to these core yarns, three different dualcore yarns were also produced with elastane and metal wires.
Furthermore, 100% CO (Cotton) yarn and core yarn containing elastane were selected as the control group.
Thus, obtained yarn set was used as weft material for the fabric production.
The properties of produced yarns and fabrics were determined and EMSE performances were examined comparatively.
The findings from this study indicate that the use of tungsten core yarn in the fabric structure can be an alternative to existing products for electromagnetic shielding.
This research will serve about products containing tungsten for electromagnetic shielding as a base for future works.
Source: Advance Research in Textile Engineering
Publisher: Austin Publishing Group
Original Language: English
Document type: Article / Open Access
Cited by 7 documents except author up to this time :
1. Yılmaz, E., & Altaş, S. (2020). Development of 3D hollow woven fabrics with superior mechanical properties by using nitinol and steel wire core hybrid yarns. Journal of Industrial Textiles, 1528083720968833.
2. Ute, T. B., & Kadoglu, H. (2019). The Effect of Single and Dual-Core Yarns Produced with Different Core Materials on the Elasticity and Recovery Properties of Denim Fabrics. Textile & Leather Review, 2(4), 174-182.
3. Bedez Ute, T. (2019). Analysis of mechanical and dimensional properties of the denim fabrics produced with double-core and core-spun weft yarns with different weft densities. The journal of the Textile Institute, 110(2), 179-185.
4. Sarıoğlu, E. (2019). İplik Tipi ve Düzeninin Dokuma Denim Kumaşların Tek-Yönlü Esneme Özellikleri Üzerindeki Etkileri. El-Cezerî Fen ve Mühendislik Dergisi, 6(3), 789-798.
5. Vuruşkan, D. (2019). Sargı Lifi ve Öz Materyalinin Çift Özlü İpliklerin Kalite Özelliklerine Etkileri. Tekstil ve Mühendis, 26(115), 289-293.
6. Türksoy, H. G., & Yıldırım, N. (2018). Effect of process variables on the properties of dual-core yarns containing wool/elastane. Industria Textila, 69(5), 352-356.
7. Babaarslan, O., Sarioğlu, E., Çelik, H. İ., & Avci, M. A. (2018). Denim fabrics woven with dual core-spun yarns. In Engineered Fabrics. IntechOpen.
Last Updated: 13.07.2021