The Research Journal of the Costume Culture (복식문화연구)

The Costume Culture Association (복식문화학회)
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Research of a new tie-dyeing tool based on 3D printing technology

  • Received : 2021.11.05
  • Accepted : 2022.01.20
  • Published : 2022.02.28
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Abstract

Traditional tie-dyeing is widely implemented in the clothing handicraft culture in China, South Korea, and Japan. Since it was developed 2,000 years ago, it has become a popular method of fabric making in the world and is highly respected by fashion designers. Based on the existing traditional tie-dyeing methods, this study conducted specific research on the 3D printing technology of the SLS laser method and the micro tool design application method of the clamp-dyeing process. Through the experimental methods of this study, it proposes to use the "7000 Nylon" material, which is commonly used in 3D printing, to develop a new clamp-dyeing tool. This new tool can be widely used in the clamp-dyeing of fabrics, such as cotton, hemp, silk, and some chemical fibers. The applied method and principle can be consistent with the traditional clamp-dyeing method. Therefore, the innovation of tie-dyeing technology is the best protection measure for the development and inheritance of traditional fabric making. The continuation of artistic life needs originality, which is also the best response to market competition. At the same time, this new design of the clamp-dyeing tool has the characteristics of novelty, innovation, and rich changes, which aligns with the new fashion demands of current fabric design.

Keywords

Acknowledgement

This paper was supported by the Research Foundation of Daegu University on 2018.

References

  1. Beecroft, M. (2018). Digital interlooping: 3D printing of weft-knitted textile-based tubular structures using selective laser sintering of nylon powder. International Journal of Fashion Design Technology and Education, 12(2), 218-224. doi:7543266.2019.1573269 https://doi.org/10.1080/17543266.2019.1573269
  2. Bitonti, F. (2019). 3D printing design: Additive manufacturing and the materials revolution. New York: Bloomsbury Visual Arts.
  3. Chen, Q. Y. (2008). 絲綢紮染 [Silk tie dyeing]. Hangzhou: Hangzhou Publishing Group.
  4. Cui, R. R., Chen, H. R., & Wang, Z. C. (2020). 传统灰缬蓝印的工艺及其造物思想考析 [Research and analysis on the process and creation thought of traditional grey valerian blue tie-dyeing]. Journal of Silk, 20(1), 81-86.
  5. Feng, S. Y., & Zhang, H. M. (2020). 選擇性激光燒結的研究進展 [Research progress of selective laser sintering]. Jiangxi Chemical Industry, 20(4), 56-57. doi:10.14127/j.cnki.jiangxihuagong.2020.04.018
  6. Han, J. (2013). A study on the prototype modeling method using 3D printing. Journal of Cultural Product & Design, (34), 97-109.
  7. Hu, S. H., Hu, Y. Q., & Li, G. (2016). 3D 打印技術 研究現狀及技術探究 [Research status and technology exploration of 3D printing technology]. Science and Technology, 3(25), 282-284.
  8. Kim, M. K., & Kim, T. (2020). A study on the deep color for the wool fabrics dyeing using natural dye stuffs. The Research Journal of the Costume Culture, 28(5), 669-676. doi:10.29049/rjcc.2020.28.5.669
  9. Kim, S. (2016). Natural dyeing of cow leather with cochineal. The Research Journal of the Costume Culture, 24(6), 817-824. doi:10.7741/rjcc.2016.24.6.817
  10. Liu, L. Y. (2013). 註塑成型工藝 [Injection molding process]. Beijing: China Machine Press.
  11. Noorizan, M. F., & Shak, R. L. (2014). The exploration technology of nature for contemporary batik design. Proceedings of the 1st International Colloquium of Art and Design Education Research (i-CADER 2014), 2, 277-287.
  12. Song, A., & Geum, K. S. (2016). A study on the formative characteristics of fashion design by using 3D printing technology -Focused on Iris van Herpen-. Journal of Basic Design & Art, 17(2), 219-230.
  13. Wang, C. F., Ling, Z. C., & Guan, Z. M. (2021). 尼龍6粉末選區激光燒結中能量累積的數值模擬與實驗研究 [Numerical simulation and experimental study on energy accumulation in selective laser sintering of nylon powder]. Modern Manufacturing Engineering, (8), 20-25. doi:10.16731/j.cnki.1671-3133.2021.08.003
  14. Wei, Y. Y. (2020). 生物基尼龍研究進展 [Progress in bio-based nylon]. Modern Plastics Processing and Applications, 32(2), 59-63. doi:10.19690/j.issn1004-3055.20190237
  15. Yan, J., & Huang, Y. (2021). 3D打印技術對服裝設計範式的改變與重構 [Change and reconstruction of fashion design paradigm by 3D printing technology]. Designs, 10, 109-112. doi:10.16129/j.cnki.mysds.2021.10.037
  16. Ye, Z. Y. (1994). 實用服飾手工印染技法 [Practical clothing manual printing and dyeing techniques]. Beijing: China Textile & Apparel Press.
  17. Yeo, Y.-M. (2017). Realize black by natural dyeing for the use of modern fashion. Unpublished master's thesis, Chonnam National University, Gwangju, Korea.
  18. Zhang, L. Q. (2018). 草木染服飾設計 [Plant dyed clothing design]. Shanghai: Donghua University Press.
  19. Zhang, S.-Y., Qu, S.-C., & Kim, H. K. (2021). Art make-up design with Chinese traditional tie-dye pattern in Bai Nationality. The Journal of the Korean Society of Knit Design, 19(2), 48-57. doi:10.35226/kskd.2021.19.2.48
  20. Zhou, Q. H., & Wang, L. (2015). 中國傳統植物染料現代研發與生態紡織技術 [Modern research and development of Chinese traditional plant dyes and ecological textile technology]. Shanghai: Donghua University Press.
  21. Zhu, J. W. (2021). Simulation research on predictive control of sintering point temperature in laser selective sintering. Unpublished master's thesis, Xi'an Technology University, Xi'an, China.