DOI QR코드

DOI QR Code

패션성 향상을 위한 신발갑피용 고강도 면직물 개발

Development of High-strength Cotton Fabrics for Upper of Shoes to Improve Fashionability

  • 이재호 (부산대학교 바이오소재과학과)
  • Lee, Jae-Ho (Dept. of Biomaterial Science, Pusan National University)
  • 투고 : 2018.07.30
  • 심사 : 2019.03.08
  • 발행 : 2019.04.30

초록

This paper considers the moisture permeability and fashion in the upper fabrics of cotton fabric shoes woven into various tissues and properties measured to examine the use as upper fabrics. We measured the tissues of the manufactured upper fabric are 1/3 twill, $4{\times}4$ weft rib, Maya, Triple, Deformed twill design (DTD), Diamond tissues and tear strength, tensile strength, breaking elongation, stretching under load at 100N, stitch tear resistance, and fastness. In the case of $4{\times}4$ weft rib, the tear strength and tensile strength were excellent; however, the elongation and stitch tear resistance at 100N load were less than the standard value. DTD fabrics are characterized by physical properties in the warp direction that are superior to those in the weft direction; however, the tear strength and tensile strength in the weft direction are less than the standard value. The 1/3 twill fabrics showed high tensile strength value and stitch tear resistance value in the warp direction; however, toughness, the main property of the shoe upper, was below the standard value. Triple and diamond fabrics, which have a significant effect on the performance of the shoe upper fabric, also had less than the standard value of tear strength. Maya upper fabric for shoes has better properties than other upper fabrics except for the elongation at break, and the stitch tear resistance has a value of 178% in the warp direction and 214% in the weft direction compared to the standard value. Therefore, the Maya fabric showed the possibility of being used as an upper textile for shoes.

키워드

참고문헌

  1. Lee, J. Y. (2004). Research trends of textile materials for sports shoes. Fiber Technology & Industry, 8(3), 266-270.
  2. Lee, J. Y., Park, C. H., & Kim, D. S. (2002). Polymer materials used in footwear. Polymer Science & Technology, 13(4), 447-452.
  3. Lim, S. W., Yoon, J. S., & Yoo, C. S. (2000). Development of material for shoes sole. Rubber Technology, 1(2), 168-172.
  4. Lin, S. C., Chen, C. P., Tang, S. F., Wong, A. M., Hsieh, J. H., & Chen, W. P. (2013). Changes in windlass effect in response to different shoe and insole designs during walking. Gait & Posture, 37(2), 235-241. doi:10.1016/j.gaitpost.2012.07.010
  5. Park, C. C., & Kim, H. J. (2012). Analysis of patented technology for health related footwear. Fashion & Textile Research Journal, 14(1), 144-151. doi:10.5805/KSCI.2012.14.1.144
  6. Shorten, M. R. (2011). Biomechanics of sports shoes, by Benno M. Nigg. Footwear Science, 3(2), 125-126. doi:10.1080/19424280.2011.570794