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http://dx.doi.org/10.5850/JKSCT.2018.42.3.474

Durability Evaluation of Stainless Steel Conductive Yarn under Various Sewing Method by Repeated Strain and Abrasion Test  

Jung, Imjoo (Dept. of Fashion & Textiles, Graduate School, Dong-A University)
Lee, Sunhee (Dept. of Fashion Design, Dong-A University)
Publication Information
Journal of the Korean Society of Clothing and Textiles / v.42, no.3, 2018 , pp. 474-485 More about this Journal
Abstract
Smart sensors and connected devices have changed the concept of garments along with IT technology convergent garments that transform the performance of basic functions. Various types of products have been researched and developed due to the increased interest in smart clothing; in addition, studies based on physical and mechanical properties have also been actively studied to improve accuracy and reliability. This study represents a basic study for the development of smart textiles based on motion recognition for the surfing practice of beginners interested in IT convergence type. A physical durability evaluation of conductive yarn according to sewing method was later carried out. This study is a conditional specimen sewn with cotton lower thread and 100mm pattern length based on the results of previous studies. The durability of the conductive yarn according to the sewing method was evaluated according to the sewing method. Durability was evaluated by two kinds of repeated strain and abrasion tests. The specimen with applied cotton in a lower thread zigzag pattern 2mm stitch size 100mm stitch length was shown to have the most suitable durability for smart textile.
Keywords
Smart textile; Conductive yarn; Sewing method; Durability evaluation; Electrical property;
Citations & Related Records
Times Cited By KSCI : 3  (Citation Analysis)
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1 Kim, J., & Kim, S. (2016). A study of the development for a turn-signal helmet cover design utilizing Arduino. The Journal of Korean Institute of Next Generation Computing, 12(6), 71-81.
2 Kim, H., & Lee, S. (2018). Characterization of carbon nanofiber (CNF)/polymer composite coated on cotton fabrics prepared with various circuit patterns. Fashion and Textiles, 5. doi:10.1186/ s40691-017-0120-2   DOI
3 Kim, T. C., Park, Y. M., Seo, J. H., Woo, K. H., & Lee, S. (2016). Design and convergence technology. Busan: Dong- A University Press.
4 Korean Agency for Technology and Standards. (2014a, December 30). KS K ISO 12947-1 Textiles - Determination of abrasion resistance of fabrics by the Martindale method - Part 1: Martindale abrasion testing apparatus. Korean Standards Service Network. Retrieved March 15, 2017, from http://www.kssn.net/StdKS/KS_detail.asp?K1=K&K2=ISO%2012947-1&K3=4
5 Korean Agency for Technology and Standards. (2014b, December 30). KS K ISO 12947-2 Textiles - Determination of abrasion resistance of fabrics by the Martindale method - Part 2: Determination of specimen breakdown. Korean Standards Service Network. Retrieved March 15, 2017, from http://www.kssn.net/StdKS/KS_detail.asp?K1=K&K 2=ISO%2012947-2&K3=4
6 Choi, S. C., Lee, Y. H., & Chun, T. I. (1992). 섬유측정법 [A method of fiber measurement]. Seoul: Soohaksa.
7 Dourado, D., Relvas, C., Carvalho, R. S. O., Fangueiro, R., & Antunes, A. (2016, April). Study on the durability of conductive embroided yarns for application in interactive textiles. Repositorium UM-The 90th Textile Institute World Conference. Retrieved May 15, 2017, from http://hdl.handle.net/1822/44648
8 Korean Agency for Technology and Standards. (2015, February 6). KS K 0520 Textiles - Tensile properties of fabrics - Determination of maximum force and elongation at maximum force using the grab method. Korean Standards Service Network. Retrieved March 15, 2017, from http://www.kssn.net/StdKS/KS_detail.asp?K1=K&K2=0520&K3=7
9 Ryu, J. W., Jee, Y. J., Kim, H. J., Kwon, S. Y., & Yoon, N. S. (2011a). Electrical properties of Ag-coated conductive yarns depending on physical and chemical conditions. Textile Coloration and Finishing, 23(1), 43-50.   DOI
10 Lee, E., & Kim, J. (2014). A Study on practical function of neoprene fabric design in wearable device for golf posture training: Focus on assistance band with Arduino/flex sensor. Journal of Fashion Business, 18(4), 1-14. doi:10.12940/jfb.2014.18.4.1   DOI
11 Ryu, J. W., Jee, Y. J., Kim, H. J., & Yoon, N. S. (2011b). Basic study of weaving structure and durability for fabric-type ECG sensor design. Textile Coloration and Finishing, 23 (3), 219-226. doi:10.5764/TCF.2011.23.3.219   DOI