Investigation of Dyeing Synthetic Fabrics by Using Bacterial Colorants for More Sustainable Textile Production
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Abstract
Polyester and polyamide fibers are the most commonly used textile fibre globally. For this reason, studies conducted on the production and dyeing of synthetic fabrics, especially polyester fabrics, have a significant environmental impact. In this study, it was aimed to put forward a more sustainable way to dye synthetic fabrics. Even if plant dyes are a good alternative for sustainable dyeing in the absence of synthetic dyestuff, the usage amount of plant dyestuffs is high and consistency is low. Bacterial dyeing can be a good alternative for more sustainable synthetic fabric dyeings due to consistent production and free of petroleum-based dyestuffs.
Within the scope of this study, 100% polyester and %100 polyamide woven fabric were dyed using 3 different receipts with 3 different bio-colors, the most suitable dyeing methods were determined for both polyester and polyamide fabric. Quality control parameters were checked regarding color depth, washing and rubbing fastness. The findings reveal that polyamide fabrics have higher K/S values compared with polyester fabrics while dyeing with the same receipt and process. pH adjustment and adding salt are necessary to get better results for dyeing pink and brown polyester. Only adding dyestuff to the dyeing bath is enough to dye polyester in blue color. On polyamide fabrics, most suitable dye bath includes salt and pH is 4 to dye pink and brown. But for the blue color, adding salt and adjusting pH to 4 gives better results in polyamide fabric.
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References
Shen, B., Zheng, J.H., Chow, P.S., & Chow, K.Y. (2014). Perception of Fashion Sustainability in Online Communit. J. Text. Inst., 105, 971–979. DOI: https://doi.org/10.1080/00405000.2013.866334
Web 1. Preferred Fiber & Materials Market Report 2022, Textile Exchange. Available: https://textileexchange.org/knowledge-center/reports/materials-market-report/. [Accessed: 01.11.2023]
Can, Ö., & Ayvaz, K. M. (2017). Tekstil ve Modada Sürdürülebilirlik, Akademia Sosyal Bilimler Dergisi, 3(1), 110-119.
Kurtoğlu N., & Şenol D. (2004). Tekstil ve Ekolojiye Genel Bakış, Karsinojen ve Alerjik Etki Yapabilen Tekstil Kimyasalları, K.S.Ü. Fen ve Mühendislik Dergisi, 7, 26-38.
Martins, N., Roriz, C., L., Morales, P., Barros, L., & Ferreira, I. C. F. R., (2017). Coloring attributes of betalains: A key emphasis on stability and future applications, Food and Function, 8(4), 1357-1372. DOI: https://doi.org/10.1039/C7FO00144D
Gürcüm, B.H., & Öneş, A., (2018). Bakteri ve mikroalglerin tekstil boyamacılığında kullanım olanakları, İdil Dergisi, 7(46), 701-709.
Hobson, D. K., & Wales, D. S., (1998). Green dyes, Journal of the Society of Dyers and Colourists, 114, 42-44. DOI: https://doi.org/10.1111/j.1478-4408.1998.tb01944.x
Kramar, A., Ilic-Tomic, T., Petkovic, M., Radulovic´, N., Kostic, M., Jocic, D., & Nikodinovic-Runic, J. (2014). Crude bacterial extracts of two new Streptomyces sp. isolates as bio-colorants for textile dyeing, World Journal of Microbiology and Biotechnology, 30, 2231-2240. DOI: https://doi.org/10.1007/s11274-014-1644-x
Yusof, N. Z. (2008). Isolation and applications of red pigment from Serratia marcescens, Universiti Teknologi Malaysia, BSc thesis.
Venil, C. K., (2013). Bacterial pigments and their applications, Process Biochemistry, 48, 1065-1079. DOI: https://doi.org/10.1016/j.procbio.2013.06.006
Alihosseini, F., Ju, K. S., Lango, J., Hammock, B. D., & Sun, G. (2008). Antibacterial colorants: characterization of prodiginines and their applications on textile materials, Biotechnology Programme, 24 (3),742-747. DOI: https://doi.org/10.1021/bp070481r
Web 2. ISO 105-C06:2010 Textiles — Tests for colour fastness — Part C06: Colour fastness to domestic and commercial laundering, Available: https://www.iso.org/standard/51276.html. [Accessed:01.11.2023].
Web 3. ISO 105-X12:2001 Textiles — Tests for colour fastness — Part X12: Colour fastness to rubbing. Available: https://www.iso.org/standard/32339.html. [Accessed: 01.11.2023].
Karadağ, R. (2015). Sustainability and awareness with natural dyes in textile, 15th AUTEX World Textile Conference, June10-12, 2015, Bucharest, Romania.
Zerin, I., Farzana. N., Sayem, A. S. M., Anang, D. M., Haider, J. (2019). Potentials of Natural Dyes for Textile Applications, Encyclopedia of Renewable and Sustainable Materials, Elsevier, 1-11. DOI: https://doi.org/10.1016/B978-0-12-803581-8.11668-6
Uddin, M. A., Rahman, M.M., Haque, A. N. M. A., Smriti, S. A., Datta, E., Farzana, N., Chowdhury, S., Haider, J., Sayem, A.S.M. (2022). Textile colouration with natural colourants: A review. Journal of Cleaner Production, 349, 131489. DOI: https://doi.org/10.1016/j.jclepro.2022.131489
Křížová, H. (2015). Natural dyes: their past, present, future and sustainability. Recent Developments in Fibrous Material Science, Kanina - o.p.s., 59-71.
Kıcık, H., Gökbulut, Ç. (2023). Investigation of the dyeability of cotton fabrics with bacterial colorants, Journal of Textiles and Engineer, 30, 230-235. DOI: https://doi.org/10.7216/teksmuh.1365865