DOI QR코드

DOI QR Code

DTP(Digital Textile Printing)에서 미디어의 원사꼬임 및 편성구조가 프린팅 Quality에 미치는 영향(2)

Effects on Printing Quality according to Yarn Twist and Knitting Structure of Media in Digital Textile Printing(II)

  • 박순영 (이화여자대학교 의류직물학과) ;
  • 전동원 (이화여자대학교 의류직물학과) ;
  • 박윤철 (한국생산기술연구원 섬유융합연구그룹) ;
  • 이범수 (한국생산기술연구원 염색가공기술센터)
  • Park, Soon-Young (Dept. of Clothing and Textile, Ewha Womans University) ;
  • Jeon, Dong-Won (Dept. of Clothing and Textile, Ewha Womans University) ;
  • Park, Yoon-Cheol (Convergent Textile Technology Group, Institute of Industrial Technology(KITECH)) ;
  • Lee, Beom-Soo (Dyeing & Finishing Technology Center, Institute of Industrial Technology(KITECH))
  • 투고 : 2010.10.08
  • 심사 : 2011.02.11
  • 발행 : 2011.03.27

초록

For high quality DTP products, it is important to optimize the parameters of media, pre- and after-treatment, ink, printer, etc. This study investigated the effect of types of fabrics(media) as a DTP parameters. Especially, the effects of media properties such as yarn twist and knitted fabric structure, on printability and color difference were examined. Two types of cotton yarn twist(830 and 1630 twist/meter) and five knitted structures of media were prepared with a single circular knitting machine. The K/S values of hard-twist samples were higher than those of normal-twist samples in every media structures. It is more effective to use the knitted fabrics of a hard-twist yarn to obtain dark color in the printing above input level value 60 where the printability improvement was most pronounced in case of plain structure. Among the five media structures a plain structure was the highest and that of corduroy was the lowest in terms of K/S values. Also ${\Delta}E$ values and lightness of the hard-twist yarn samples were smaller than that of normal-twist yarn samples when ${\Delta}E$ values were tested by using a standard of a normal twist yarn sample with a plain structure, which was increased in the case of corduroy structure.

키워드

참고문헌

  1. http://www.konicaminolta.com/inkjethead/ products/textile_printer/nassenger_vij
  2. http://www.keundo.com/sub-2/sub_1_1.html
  3. http://eng.taeil.com/products
  4. S. Y. Park, D. W. Jeon, Y. C. Park, B. S. Lee, and Y. H. Park, Effects of Color Management System on the Color Reproduction between Monitor and Printer in Digital Textile Printing, Textile Science and Engineering(J. Korean Fiber Soc.), 46(2), 113-122(2009).
  5. H. S. Park, Evaluation of Image Quality of InkJet Printing on the Spun Polyester Fabrics, Textile Coloration and Finishing(J. Korean Soc. Dyers & Finishers), 18(5), 61-71(2006).
  6. K. S. Park, "Developing Environment - Friendly Textile Products Using Chitosan as a Natural Finishing Agent", Department of Clothing and Textiles, Ewha Womans University, p.109, 2009.
  7. S. Y. Park, D. W. Jeon, Y. C. Park, and B. S. Lee, Effects on Printing Quality according to Yarn Twist and Knitting Structure of Media in Digital Textile Printing(I), Textile Coloration and Finishing, 22(3), 282-291(2010). https://doi.org/10.5764/TCF.2010.22.3.282
  8. Y. Kimberly, "Digital Color Comunication Solution Development for Textile Value Chain Improvment", Ministry of Knowledge Economy, pp.67-69, 2009.
  9. International Standard, "Information Technology - Office Equipment-Measurement of Image Quality Attributes for Hardcopy Output - Binary Monochrome Text and Graphic Images", ISO/ IEC 13660:2001(E), 2001.
  10. D. J. Forrest, J. C. Briggs, Y. Kim, and M. Tse, "Print Quality Analysis as QC Tool for Manufacturing Inkjet Print Heads", IS&T's NIP14, Int. Digital Printing Technologies Conf., Toronto, 1998.
  11. W. W. Carr, H. Park, and J. F. Morris, "Textile Ink Jet : Drop Formation and Surface Interaction", The National Textile Center Annual Report, November, p.9, 2004.
  12. Y. M. Jeon, "Improvement of Antimicrobial Functions on Cellulose Fabrics with High Addon of Chitosan", Department of Textile Engineering, Yeungnam University, p.86, 2002.