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Tekrarlı Eğim Hareketinin Dokuma Kumaşların Mukavemeti Üzerine Etkilerinin Araştırılması

Year 2019, Volume: 4 Issue: 2, 9 - 19, 26.12.2019

Abstract

Kumaşlar kullanım ömürleri
boyunca eğilme, bükülme, çekmeye maruz kalırlar. Bu kuvvetlerin sebep olduğu
deformasyon, kuvvetlerin büyüklüğü ile doğru orantılıdır. Küçük kuvvetler
genelde kumaşın absorbe edebildiği elastik deformasyonlara sebep olur. Ancak
kumaşın uzun vadede bu küçük kuvvetlere sürekli maruz kalması, kumaş özelliklerini
önemli ölçüde etkileyebilmektedir. Bu çalışmada pamuk, polyester ve viskon
bezayağı dokuma kumaşların tekrarlı eğilme ve çekme gerilmesi sonrası mukavemet
değişimleri incelenmiştir. Yapılan incelemeler sonunda pamuk ve viskon dokuma
kumaş en büyük kopma kuvvetinde önemli bir değişiklik olmamış, ancak polyester
kumaşta %5 oranında azaldığı görülmüştür. 

References

  • • Hossain, M. M., Datta, E., & Rahman, S. (2016). A review on different factors of woven fabrics’ strength prediction. Science Research, 4(3), 88-97.
  • • Behera, B.K., Hari, P.K. (2010). Woven Textile Structure Theory and Applications. Woodhead Publishing Limited. ISBN: 978-1-84569-718-5.
  • • Hu, J. (2004). Structure and Mechanics of Woven Fabrics. Woodhead Publishing Limited. ISBN 1 85573 904 6.
  • • Klevaitytė, R., & Masteikaitė, V. (2008). Anisotropy of woven fabric deformation after stretching. Fibres & Textiles in Eastern Europe, 16(4), 69.
  • • De Bilbao, E., Soulat, D., Hivet, G., & Gasser, A. (2010). Experimental study of bending behaviour of reinforcements. Experimental Mechanics, 50(3), 333-351. • Kan, C. W., Leung, M. H. M., & Mongkholrattanasit, R. (2016). Using KES-F System for Determining the Bending Properties of Paper Towels. In Applied Mechanics and Materials (Vol. 848, pp. 170-173). Trans Tech Publications.
  • • Kisilak, D. (1999). A new method of evaluating spherical fabric deformation. Textile Research Journal, 69(12), 908-913.
  • • Gan, L., Ly, N. G., & Steven, G. P. (1995). A study of fabric deformation using nonlinear finite elements. Textile research journal, 65(11), 660-668.
  • • Zhang, X., Li, Y., Yeung, K. W., & Yao, M. (2000). Viscoelastic behavior of fibers during woven fabric bagging. Textile Research Journal, 70(9), 751-757.
  • • Zhang, X., Li, Y., Yeung, K. W., & Yao, M. (1999). Fabric bagging: Part II: Objective evaluation and physical mechanism. Textile Research Journal, 69(8), 598-606.
  • • Jeddi, A. A., Dabiryan, H., & Kalani, S. (2017). An explanation of warp knitted fabric deformation under uni-axial tension by a novel index as shape ratio. The Journal of The Textile Institute, 108(4), 500-506.
  • • Xiao, X., Long, A., Lin, H., & Zeng, X. (2015). Large deformation modelling of tight woven fabric under high air pressure. Journal of Engineered Fibers and Fabrics, 10(1), 155892501501000107.
  • • R. H. K. Thomson & David Traill (1947) 6—THE BENDING FRACTURE OF FIBRES, Journal of the Textile Institute Transactions, 38:2, T43-T49, DOI:10.1080/19447024708659286.
  • • Hearle, J. W. S., & Wong, B. S. (1977). Flexural fatigue and surface abrasion of Kevlar-29 and other high-modulus fibres. Journal of materials science, 12(12), 2447-2455.
  • • Cai, G., Li, D., Fang, D., & Yu, W. (2014). A new apparatus to measure the effect of temperature and light on the bending fatigue properties of Kevlar 49 and PBO fibers. Polymer Testing, 40, 143-148.
  • • Alamdar-Yazdi, A., & Shahbazi, Z. (2006). Evaluation of the bending properties of viscose/polyester woven fabrics. Fibres & Textiles in Eastern Europe, (2), 1.
  • • Arsoy, R. (2015). Hazır Giyim Üretiminde Yapıştırma Teknolojilerinin Geliştirilmesi. Süleyman Demirel Üniversitesi Fen Bilimleri Enstitüsü Doktora Tezi. s217.
Year 2019, Volume: 4 Issue: 2, 9 - 19, 26.12.2019

Abstract

References

  • • Hossain, M. M., Datta, E., & Rahman, S. (2016). A review on different factors of woven fabrics’ strength prediction. Science Research, 4(3), 88-97.
  • • Behera, B.K., Hari, P.K. (2010). Woven Textile Structure Theory and Applications. Woodhead Publishing Limited. ISBN: 978-1-84569-718-5.
  • • Hu, J. (2004). Structure and Mechanics of Woven Fabrics. Woodhead Publishing Limited. ISBN 1 85573 904 6.
  • • Klevaitytė, R., & Masteikaitė, V. (2008). Anisotropy of woven fabric deformation after stretching. Fibres & Textiles in Eastern Europe, 16(4), 69.
  • • De Bilbao, E., Soulat, D., Hivet, G., & Gasser, A. (2010). Experimental study of bending behaviour of reinforcements. Experimental Mechanics, 50(3), 333-351. • Kan, C. W., Leung, M. H. M., & Mongkholrattanasit, R. (2016). Using KES-F System for Determining the Bending Properties of Paper Towels. In Applied Mechanics and Materials (Vol. 848, pp. 170-173). Trans Tech Publications.
  • • Kisilak, D. (1999). A new method of evaluating spherical fabric deformation. Textile Research Journal, 69(12), 908-913.
  • • Gan, L., Ly, N. G., & Steven, G. P. (1995). A study of fabric deformation using nonlinear finite elements. Textile research journal, 65(11), 660-668.
  • • Zhang, X., Li, Y., Yeung, K. W., & Yao, M. (2000). Viscoelastic behavior of fibers during woven fabric bagging. Textile Research Journal, 70(9), 751-757.
  • • Zhang, X., Li, Y., Yeung, K. W., & Yao, M. (1999). Fabric bagging: Part II: Objective evaluation and physical mechanism. Textile Research Journal, 69(8), 598-606.
  • • Jeddi, A. A., Dabiryan, H., & Kalani, S. (2017). An explanation of warp knitted fabric deformation under uni-axial tension by a novel index as shape ratio. The Journal of The Textile Institute, 108(4), 500-506.
  • • Xiao, X., Long, A., Lin, H., & Zeng, X. (2015). Large deformation modelling of tight woven fabric under high air pressure. Journal of Engineered Fibers and Fabrics, 10(1), 155892501501000107.
  • • R. H. K. Thomson & David Traill (1947) 6—THE BENDING FRACTURE OF FIBRES, Journal of the Textile Institute Transactions, 38:2, T43-T49, DOI:10.1080/19447024708659286.
  • • Hearle, J. W. S., & Wong, B. S. (1977). Flexural fatigue and surface abrasion of Kevlar-29 and other high-modulus fibres. Journal of materials science, 12(12), 2447-2455.
  • • Cai, G., Li, D., Fang, D., & Yu, W. (2014). A new apparatus to measure the effect of temperature and light on the bending fatigue properties of Kevlar 49 and PBO fibers. Polymer Testing, 40, 143-148.
  • • Alamdar-Yazdi, A., & Shahbazi, Z. (2006). Evaluation of the bending properties of viscose/polyester woven fabrics. Fibres & Textiles in Eastern Europe, (2), 1.
  • • Arsoy, R. (2015). Hazır Giyim Üretiminde Yapıştırma Teknolojilerinin Geliştirilmesi. Süleyman Demirel Üniversitesi Fen Bilimleri Enstitüsü Doktora Tezi. s217.
There are 16 citations in total.

Details

Primary Language Turkish
Subjects Wearable Materials
Journal Section articles
Authors

Serap Gamze Serdar

Gabil Abdulla

Publication Date December 26, 2019
Acceptance Date November 12, 2019
Published in Issue Year 2019 Volume: 4 Issue: 2

Cite

IEEE S. G. Serdar and G. Abdulla, “Tekrarlı Eğim Hareketinin Dokuma Kumaşların Mukavemeti Üzerine Etkilerinin Araştırılması”, Yekarum, vol. 4, no. 2, pp. 9–19, 2019.