استفاده از بتاسیکلودکسترین به عنوان عامل پراکنش‌کننده در رنگرزی پارچه‌های پلی‌استر-ویسکوز

نوع مقاله : مقاله پژوهشی

نویسنده

دانشکده مهندسی نساجی، دانشگاه یزد، یزد، ایران، صندوق پستی: 741-89195

چکیده

درتحقیق حاضر، پارچه پلی‌استر- ویسکوز با ماده رنگزای دیسپرس در حضور بتاسایکلودکسترین و سپس ماده رنگزای راکتیو رنگرزی شد. هدف از انجام این تحقیق، بررسی اثر بتاسیکلودکسترین به عنوان یک ماده کمکی و جایگزینی آن با پراکنش­کننده در رنگرزی دیسپرس-راکتیو منسوج پلی‌استر- ویسکوز و بررسی خواص حاصله آن است.  قدرت رنگی در فرآیند رنگرزی نیز توسط مولفه‌های رنگی سه‌گانه مورد ارزیابی قرار گرفت. نتایج به دست آمده نشان داد بتاسیکلودکسترین می‌تواند به عنوان یک ماده کمکی در حمام رنگرزی ماده رنگزای دیسپرس بدون نیاز به پراکنش­کننده مورد استفاده قرار گیرد. همچنین استفاده از بتاسیکلودکسترین در مقایسه با پراکنش­کننده، باعث بهبود در قدرت رنگی نمونه‌ها (K/S) می‌گردد بدون آن­که بر روی کیفیت رنگرزی همچون یکنواختی و خواص ثباتی همچون ثبات شست­وشویی، نوری و ثبات مالشی تأثیر منفی داشته باشد.

کلیدواژه‌ها

عنوان مقاله [English]

β-Cyclodextrin as Dispersing Agent in the Dyeing of Polyester-Viscose Fabrics

نویسنده [English]

  • A. Zare
Department of Textile Engineering, Yazd University, P.O. Box: 89195-741, Yazd-Iran
چکیده [English]

In the present study, the polyester-viscose fabric was dyed with dispersed dye and then reactive dye in the presence of β-cyclodextrin. The object of this study was to investigate the effect of β-cyclodextrin as an auxiliary and substitute for a commonly commercial dispersing agent on the dye-reactive dyeing of polyester-viscose fabric and its properties. Color strength was evaluated using tristimulus colorimetry. The results showed that β-cyclodextrin could be used satisfactorily as an additive in the dispersed dyebath without adding other auxiliaries. Also, the use of β -cyclodextrin, in comparison with the dispersing agent, improves the color strength of the samples (K/S) without loss in dyeing quality as dyeing uniformity and the fastness properties such as washing, light, and rubbing fastness.

کلیدواژه‌ها [English]

  • β
  • cyclodextrin Dispersing agent Polyester
  • viscose fabric Viscose Color strength

مراجع

  1. F. M. Bezerra, M. J. Lis, H. B. Firmino, G. D. Da Silva, C. S. Valle R de, J. A. B. Valle, F. A. P. Scacchetti, A. T. Tessaro, The role of β-cyclodextrin in the textile industry—review, molecules, 25 (2020), 3624-3651.
  2. R. Nayak, Sustainable Technologies for fashion and textiles. Woodhead Publishing, 2020, 214-215.
  3. S. Fourmentin, G. Crini, E. Lichtfouse, Cyclodextrin fundamentals, reactivity and analysis, environmental chemistry for a sustainable world. Springer International Publishing AG, part of Springer Nature, 2018, 3-7.
  4. E. El-Sayed, H. A. Othman, A. G. Hassabo, Cyclodextrin usage in textile industry. J. Text. Color. Polym. Sci. 18 (2021), 111-119.
  5. Del Valle, E. M. M., Cyclodextrins and Their Uses: A Review. Process. Biochem. 39(2004), 1033-1046.
  6. M. Shabbir, S. Ahmed, J. N. Sheikh, In frontiers of textile materials: polymers, nanomaterials, enzymes, and advanced modification techniques, Scrivener Publishing, Beverly., USA. 2020, 87-116.
  7. M. Abniki, A. Moghimi, Removal and measurement of bromocresol purple dye in aqueous samples by β-cyclodextrin-modified magnetic carbon nanotube with dispersive solid-phase extraction technique. J. Color Sci. Tech. 15, 4(2022), 301-315. [In Persian]
  8. M. Shabbir, SH. Ahmed, J. N. Sheikh, Frontiers of textile materials) polymers, nanomaterials, enzymes, and advanced modification techniques. Wiley-Scrivener, USA, 2020, 87-91.
  9. Sh. Ul-Islam, B. S. Butola, The impact and prospects of green chemistry for textile technology. Woodhead Publishing, 2019, 83-87.
  10. G. Crini, Review: A History of Cyclodextrins, J. Am. Chem. Soc.14(2014), 10940−10975.
  11. P. J. Hauser, Textile dyeing. Published by InTech, 2011, 373-376. 
  12. M Günay, Eco-Friendly Textile dyeing and finishing, (Edi.), InTech Publisher, 2013, 53-69.
  13. A. Nadi, A. Boukhriss, A. Bentis, E. Jabrane, S. Gmouh, Evolution in the surface modification of textiles: A Review, Text. Prog. 50(2019), 67-108.
  14. C. Sodsangchan, J. Setthayanond, P. Suwanruji, Influence of monochlorotriazine-β-Cyclodextrin treatment on dyeing and fastness properties of the hot-dyeing reactive dye on cotton. Appl. Mech. Mater. 535(2014), 662-665.
  15. L. M. T. Martínez, O. V. Kharissova, B. I. Kharisov, Handbook of Ecomaterials, Springer International Publishing, 2019,1-22
  16. U. R. Bhaskara-Amrit, P. B. Agrawal, M. M. C. G. Warmoeskerken, Applications of β-Cyclodextrins in textiles. Autex Res. J. 11(2011), 94-101.
  17. N. A. Ibrahim, Z. M. El-Sayed, H. M. Fahmy, A. G. Hassabo, M. H. Abo-Shosha, Perfume finishing of cotton/polyester fabric crosslinked with dmdheu in presence of some softeners, Res. J. Text. Appar. 17(2013), 58-63.
  18. L. Ammayappan, J. J. Moses, An overview on application of cyclodextrins in textile product enhancement. J. Text. Assoc. 9(2009), 1-10.
  19. B. Martel, M. Morcellet, D. Ruffin, L. Ducoroy, M. Weltrowski, Finishing of polyester fabrics with cyclodextrins and polycarboxylic acids as crosslinking agents. J. Incl Phenom Macrocycl Chem. 44(2002), 443-446.
  20. N. Chauhan, N. Arya, N. Yadav, Application of cyclodextrins in textiles. Int. J. Chem. Stud. 6(2018), 2314-2320.
  21. A. Cireli, B.Yurdakul, Application of cyclodextrin to the textile dyeing and washing processes. J. Appl. Polym. Sci. 100(2006), 208-218.
  22. Y. El -Ghoul, B. Martel, A. El Achari, Ch. Campagne, L. Razafimahefa, I. Vroman, Improved dyeability of polypropylene fabrics finished with β-cyclodextrin–citric acid polymer. Polym. J. 42(2010), 804-811.
  23. A. Sen, A. Bhowal, S. Datta, Comparison of dyeing of polyester fibers with natural dye and biomordant. Prog. Color Colorants Coat. 11(2018), 165-172.
  24. F. Abdelghaffar, R. A. Abdelghaffar, U. M. Rashed, H. M. Ahmed, Highly effective surface modification using plasma technologies toward green coloration of polyester fabrics. Environ. Sci. Pollut. Res. 27(2020), 28949–28961.
  25. J. Szejtli, Cyclodextrins in the textile industry, Starch. 55(2003), 191–196.
  26. F. M. Bezerra, D. S. D. C. Cotre, A. Plath, H. B. Firmino, Miliane aparecida de lima4, m lis, r.b. samulewski, m.p. moises, β-Cyclodextrin: Disperse yellow 211 complexes improve coloristic intensity of polyamide dyed knits. Text. Res. J. 0(2011), 1–11.
  27. P. Savarino, S. Parlati, R. Buscaino, P. Piccinini, I. Degani, E. Barni. Effects of additives on the dyeing of polyamide fibres. Part I: β-cyclodextrin. Dyes Pigm. 60(2004), 223–232.
  28. P. Savarino, P. Piccinini, E. Montoneri, G. Viscardi, Effects of additives on the dyeing of nylon-6 with dyes containing hydrophobic and hydrophilic moieties. Dyes Pigm. 47(2000), 177–188.
  29. W. C. Cromwell, K. Bystrom, M. R. Eftink, Cyclodextrin-adamantanecarboxylate inclusion complexes: Studies of the variation in cavity size. J. Phys. Chem. 89(1985), 326–332.
  30. P. Savarino, G. Viscardi, P. Quagliotto, E. Montoneri, E. Barni, Reactivity and effects of cyclodextrins in textile dyeing. Dyes Pigm. 42(1999), 143-147.
  31. F. Sahraei Ardakani, H. Bahari Moghaddam, M. Khajeh Mehrizi, S. M Bidoki, Effect of β-Cyclodextrin on Color Values and Fastness Properties of Printed Cotton/Polyester Fabrics. J. Color Sci. Tech. 9(2016), 287-296.
  32. S. Parlati, R, Gobetto, C. Barolo, A. Arrais, R. Buscaino, C. Medana, P. Savarino, Preparation and application of a β-cyclodextrin-disperse/reactive dye complex. J Incl Phenom Macrocycl Chem. 57(2007), 463–470.
  33. R. Carpignano, S. Parlati, P. Piccinini, P. Savarino, M. Rita De Giorgi, R. Fochi, Use of β-cyclodextrin in the dyeing of polyester with low environmental impact. Color. Technol. 126(2010), 201–208. 
  34. J. S. Park, I. S. Kim, Use of β-cyclodextrin in an antimigration coating for polyester fabric. Color. Technol.  129(2013), 1-5.

فایل ها

هم رسانی

ارجاع به این مقاله

آمار