The Effect of Perspiring on Conductivity in Electronic Textile Design
It is seen great advances in technology in recent years. One of these advances has become in smart textile. Although there are many different definitions, usually smart textiles can be defined “sense and respond to environmental stimuli”. They have been different application areas such as e-textiles, nano textiles, technical textiles, etc. In the last decades, e-textiles developments come to the fore in the smart textiles. E-textiles contain some digital, electronical circuits, sensors and textile based materials such as conductive fiber, yarn and fabrics. A lot of products can be made in this industry but the effects of environmental stimulis such as human perspiring on these products are not examined so much. In this study, it was examined the conductivity of e-textile fabrics in the changing different pH values according to genders.
Anahtar Kelimeler:
E-textile, Smart textile, İntelligent textile, conductivity
The Effect of Perspiring on Conductivity in Electronic Textile Design
It is seen great advances in technology in recent years. One of these advances has become in smart textile. Although there are many different definitions, usually smart textiles can be defined “sense and respond to environmental stimuli”. They have been different application areas such as e-textiles, nano textiles, technical textiles, etc. In the last decades, e-textiles developments come to the fore in the smart textiles. E-textiles contain some digital, electronical circuits, sensors and textile based materials such as conductive fiber, yarn and fabrics. A lot of products can be made in this industry but the effects of environmental stimulis such as human perspiring on these products are not examined so much. In this study, it was examined the conductivity of e-textile fabrics in the changing different pH values according to genders.
Keywords:
E-textile, Smart textile, İntelligent textile, Conductivity,
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- [1] Fishlock, D. (2001). Doctor volts. IEE Review, 5, 23-28.
- [2] Bilir M. Z. and Gürcüm B. H.. (2015). A Piezo-resistive Application in Textile Design. Marmara Journal of Pure and Applied Sciences, 58-60.
- [3] Wearable Computing, http://www.engadget.com/2013/09/18/edward-thorp-father-of-wearable-computing/, (January 2016).
- [4] Park S. and Jayaraman S. (1999). Adaptive and responsive textile structures, Journal of Virtual Reality , 4, 152-168.
- [5] Zieba J. and Frydrysiak M. (2006). Textronics – Electrical and Electronic Textiles Sensors for Breathing Frequency Measurement. Fibres & Textiles In Eastern Europe, 14, 43-48.
- [6] Guo L., Wiklund U. and Mattila H. (2013). Design of a garment-based sensing system for breathing monitoring. Textile Research Journal, 5, 499–509.
- [7] Curone D., Secco E. L., Tognetti A., Loriga G., Dudnik G., Risatti M., Whyte R., Bonfiglio A. and Magenes G. (2010). Smart Garments for Emergency Operators: The ProeTEX Project. Ieee Transactions On Information Technology In Biomedicine, 14.
- [8] Media Mit, http://web.media.mit.edu/~leah/grad_work/diy/diy_tank.html, (Januarry 2016).
- [9] Bedeloğlu A., Sünter N. and Bozkurt Y. (2010). Electrically conductive textiles, production methods and usage areas. The Journal Of Textiles and Engineers, 79, 7-17.
- [10] Media Mit, http://web.media.mit.edu/~leah/grad_work/diy/diy_tank.html, ( January 2016).
- [11] Zysset C., Kinkeldei T. W., Münzenrieder R., Cherenack K. and Tröster G. (2012). Integration Method for Electronics in Woven Textiles. Ieee Transactions On Components, Packaging And Manufacturing Technology, 2, 1107-1117.
- [12] Şenel F. (2010). Terleme. Bilim ve Teknik, 98-99.
- [13] Sweet Glands, http://health.howstuffworks.com/wellness/men/sweating-odor/understanding-eccrine-sweat-glands1.htm, (January 2016).
- [14] Demir A., Öktem T. and Seventekin N. (2008). The Effect Of Uv Absorbers On Light Fastness Of Reactive Dyed Cotton Fabrics. Tekstil ve Konfeksiyon, 211-220.
- [15] Bauer C., Jacques P. and Kalt A. (2001). Photooxidation of an azo dye induced by visible light incident on the surface of TiO2. Journal of Photochemistry and Photobiology A: Chemistry, 87–92.
- Yayın Aralığı: Yılda 4 Sayı
- Başlangıç: 2008
- Yayıncı: Marmara Üniversitesi
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The Effect of Perspiring on Conductivity in Electronic Textile Design
Mehmet Zahit BİLİR, Mustafa Oğuz GÖK
Çağrışım: Türkçe İçin Eğitsel Mobil Oyun Uygulaması
Özlem AKTAŞ, Çağdaş Can BİRANT, Ozgün KOŞANER, Atilla SUNCAK
Gemlik Körfezi (Marmara Denizi, Bursa) Balık Tür Çeşitliliği Üzerine Bir Araştırma