Home Articles List Article Information
International Design Journal
Journal Archive
Volume Volume 15 (2025)
Volume Volume 14 (2024)
Volume Volume 13 (2023)
Volume Volume 12 (2022)
Volume Volume 11 (2021)
Volume Volume 10 (2020)
Volume Volume 9 (2019)
Volume Volume 8 (2018)
Volume Volume 7 (2017)
Volume Volume 6 (2016)
Volume Volume 5 (2015)
Volume Volume 4 (2014)
Volume Volume 1 (2012)
Reda, R. (2021). Re-using Pre-Consumer Textile Waste and Printing on by Using Smart Pigments. International Design Journal, 11(3), 91-100. doi: 10.21608/idj.2021.162464
Rehab R . Reda. "Re-using Pre-Consumer Textile Waste and Printing on by Using Smart Pigments". International Design Journal, 11, 3, 2021, 91-100. doi: 10.21608/idj.2021.162464
Reda, R. (2021). 'Re-using Pre-Consumer Textile Waste and Printing on by Using Smart Pigments', International Design Journal, 11(3), pp. 91-100. doi: 10.21608/idj.2021.162464
Reda, R. Re-using Pre-Consumer Textile Waste and Printing on by Using Smart Pigments. International Design Journal, 2021; 11(3): 91-100. doi: 10.21608/idj.2021.162464

Re-using Pre-Consumer Textile Waste and Printing on by Using Smart Pigments

Article 7, Volume 11, Issue 3 - Serial Number 40, May and June 2021, Page 91-100  XML PDF (294.62 K)
Document Type: Original Article
DOI: 10.21608/idj.2021.162464
View on SCiNiTO View on SCiNiTO
Author
Rehab R . Reda
Assistant Lecturer, Department of Fashion Design, Umm Al-Qura University, Makkah-Saudi Arabia
Abstract
The increase in demand for clothes and garments has created a substantial amount of textile waste, which affects the environment, economy and society in numerous ways. Objective: The aim of this study has been to develop a new method for re-using the pre-consumer textile waste that is thrown away in the landfill through; defining the problem of pre-consumer textile waste in textile and clothing factories, carrying out a literature review on the re-use and recycling of textile waste and smart pigments for use in textile design through specialist printing techniques. investigating appropriate techniques for the conversion of pre-consumer textile waste into a new form of fabric material and creating a printed design on the new material made of textile waste, using a smart pigment. The study has used printing techniques to apply smart pigments to fabrics made from textile waste.  The problems of textile waste and the approaches that have already been taken to reduce it are examined here. The fields of smart textiles and smart pigments are assessed, and the techniques for textile design through printing are evaluated.  Results: A new method was developed for developing fabric from textile waste, using a bandaging and stiffening process; this textile material was then printed with printing paste containing smart pigments and the chromic effects were evaluated. This research shows that the techniques and processes employed are effective ways to re-use textile waste for various products with added functionality through the use of smart pigments.
Keywords
Re-use; Pre-Consumer Textile; Waste; Smart Pigments
References
  1. Bartl, A. (2011) Waste: A Handbook for Management. Textile Waste, in Trevor, L and Daniel, V. (ed.) Institute of Chemical Engineering, Vienna University of Technology, Getreidemarket, pp.167-177.
  2. Balgooi, F., (2015), 'Design for Disassembly', Zero Waste Scotland, Duncan of Jordanston College of Art and Design, University of Dundee. (not published yet)
  3. Bommel, H. And Goorhuis, M. (2014), Design Jeans for Recycling: A Supply Chain Case Study in the Netherlands, SAGE Journal Waste Management & Researc, Vol. 32(11) 1142–1144
  4. Briga-Sa, A., Nascimento, D., Teixeira, N. Pinto, J., Caldeira, F., Varum, H. and Paiva, A. (2013) Textile Waste as an Alternative Thermal Insulation Building Material Solution, Construction and Building Materials, v.38, pp.155-160.
  5. Chapman, l. And Little, T. (2012), Textile Design Engineering within the Products Shape, The Journal of the Textile Institute, Vol. 103, No. 8, pp. 866-874
  6. Chen, H. and Huang, L. (2014), An Investigation of the Design Potential of Thermochromic Home Textiles Used with Electric Heating Techniques, Mathematical Problems in Engineering, Hindawi Publishing Corporation, Taiwan, Vol. 2015 
  7. Chowdhury, M. , Butola, B. And Josh, M. (2013), Application of Thermochromic Colorants on Textile: Temperature Dependence of Colorimetric Properties, Coloration Technology, Society of Dyers and Colourist, Vol.16, No.6, 1312-1318
  8. Davis, D., Hamilton, A., Yan, J., Cremar, L., van Gough, D., Potisek, S., et al. (2009, May 7). Force-induce activa­tion of covalent bonds in mechanoresponsive polymeric materials. Nature, 459, 68–72.
  9. Edward, M. (2008), Textile Printing: Part I, world Textile, Vol. 55, Issue 12, pp. 91-94. Availabl online:  https://ezproxy1.hw.ac.uk/login?url=http://search.ebscohost.com/login.aspx?direct=true&db=wta&AN=WTA2124509&site=eds-live
  10. Logan, R. (2012), The Trend of Eco-Fashion: Does it have a Sustainable future?, International Journal of Social Health Information Management, Vol. 5 Issue 10, pp. 67-74
  11. Mattila, H. (2014). Yearn to Fabric: Intelligent Textile. Elsevier Ltd., pp.Chapter 15, pp. 355-376.
  12. McConnell, M (2011) Sustainability Insights, MSc. Thesis, North Carolina: North Carolina State University.
  13. Noman, M., Batool, S. and Chaudhary, M. (2013) Economic and Employment Potential in Textile Waste Management of Faisalabad, Waste Management and Research. 31(5). pp.485-495.
  14. Oxford Dictionary (2015) [online] Available at:< http://www.oxforddictionaries.com/>  (Accessed 14 November 2015)
  15. Oxman, N. (2007), Digital Craft: Fabrication Based Design in the Age of Digital Production, Workshop Proceeding for Ubicomp 2007: International Conference on Ubquitous computing, Innsbruck, Austria, pp. 534-538
  16. Paul, R. (ed.) (2015) Denim: Manufacture, Finishing and Application, Elsevier's Science & Technology, Woodhed Publishing Series in Textile, Textile Institute
  17. Peng, L. , Guo, R. , Jiang, S. , Lan, J. , He, Y. And Huang, X. (2015), Ultrsound-aided Dyeing of Cotton Fabric with Spirooxazines and Photochromic Properties, Fibers and Polymers, Vol. 16, No. 6, pp. 1312-1318
  18. Retail Forum for Sustanability, (2013). Sustainability of Textile. [online] Available at: http://ec.europa.eu/environment/industry/retail/pdf/issue_paper_textiles.pdf [Accessed 1 Jun. 2016].  
  19. Sule, A. Badhan, M. (2001) 'Recycling of Textile Waste for Environment Production – An Overview of Some Practical Case in Textile Industrial', Indian Journal of Fiber and Textile Research, 26 March-June, PP. 223-232.
  20. The World Bank, (2012). Green Choice Apparel Supply Chain Investigation. Cleaning up the Fashion Industry. [online] Available at: http://ipe.org.cn/Upload/Report-Textiles-One-EN.pdf [Accessed 1 Jun. 2016].
  21. Textronics. (2010). Energy-activated fabrics. Textronics Inc. Available from http://www.textronicsinc.com/. [Accessed 30 July 2016]
Statistics
Article View: 657
PDF Download: 767