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Abstrakty
Attempts were made to find a more environmentally friendly technique for the printing of polyester (PET ) fabric, acting as an alternative to a usual disperse dye direct-printing process by using a plenty of water and salt and producing effluent contaminants. The low-emission printing technique includes the recipe containing disperse dye paste, synthetic thickener and the water-based silicone-modified acrylate and high-temperature curing process. The water-based silicone-modified acrylate for adhesive coating of polyester (PET) fibres was synthesized using butyl acrylate (BA), eight four methyl siloxane (D4), acrylonitrile (AN), styrene (St), methyl acrylic acid (MAA) and N-methylol acrylamide (NMA).The results showed that the silicone-modified acrylate adhesive could increase the percentages of dye fixation and the colour strength. The superior colour fastness (≥level 4) with the low-emission printing process was realized. The wastewater stream produced by the technique had a residual dye concentration of 2.62 mg/L, which was reduced by approximately 19 times that produced by traditional direct printing. The effluent wastewater drainage was reduced by 76.9%.
Czasopismo
Rocznik
Tom
Strony
293--300
Opis fizyczny
Bibliogr. 16 poz.
Twórcy
autor
- College of Textile and Clothing Engineering, Soochow University, Suzhou, Jiangsu 215021, China
autor
- College of Textile and Clothing Engineering, Soochow University, Suzhou, Jiangsu 215021, China
- Changzhou Vocational Institute of Textile and Garment, Changzhou, Jiangsu 213164, China
autor
- College of Textile and Clothing Engineering, Soochow University, Suzhou, Jiangsu 215021, China
- National Engineering Laboratory for the Modern Silk (Suzhou), Suzhou, Jiangsu 215123, China Tel.: +86 13812636806
Bibliografia
- [1] Schwindt, W, Faulhaber, G, Moore, A. J. (2010). Resinbonded pigment printing and dyeing. Coloration Technology, 2(1), 33-41.
- [2] Warburton, C. E. Jr. (1975). Crockfastness of polyacrylate textile pigment-printing binders: effect of binder mechanical properties and adhesion to fabric. Journal of Adhesion, 7(2), 109-119.
- [3] Jiang, X., Hu, H., Bai, Y., et al. (2013). Synthesis and properties of the vinyl silicone oil modified polyacrylate core-shell latex as a binder for pigment printing. Journal of Adhesion Science & Technology, 27(2), 154-164.
- [4] Hamilton, L. E, Chiweshe, A. (1998). Textile pigment printing binders prepared by modifying wheat gluten with methyl acrylate. Starch-Stärke, 50(5), 213-218.
- [5] Iqbal, M., Mughal, J., Sohail, M., Moiz, A., Ahmed, K., et al. (2012). Comparison between pigment printing systems with acrylate and butadiene based binders. Journal of Analytical Sciences Methods & Instrumentation, 2(2), 87-91.
- [6] Sui, Z., Pang, W., Song, J., Zhang, L. (2014). Preparation of silicone-modified acrylic ester emulsion adhesive with core-shell structure. Asian Journal of Chemistry, 26(14), 4435-4438.
- [7] Jiang, X., Gu, J., Tian, X., Yang, Y. (2011). Synthesis of the hydroxyl-containing poly(dimethyl siloxane) modified polyacrylate core-shell latex and the application as a novel binder for pigment printing of fabric. Journal of Dispersion Science & Technology, 32(9), 1266-1272.
- [8] Cao, S., Liu, B., Deng, X., Li, S. (2005). Core/shell particles containing 3-(methacryloxypropyl)-trimethoxysilane in the shell: synthesis, characterization, and application. Macromolecular Bioscience, 5(7), 669-76.
- [9] Yen, M. S, Tsai, H. C, Hong, P. D. (2010). Effect of soft segment composition on the physical properties of nonionic aqueous polyurethane containing side chain PEGME. Journal of Applied Polymer Science, 105(3), 1391-1399.
- [10] Yen, M. S., Tsai, H. C., Hong, P. D. (2006). The physical properties of aqueous cationic-nonionic polyurethane with poly (ethylene glycol methyl ether) side chain and its blend with aqueous cationic polyurethane. Journal of Applied Polymer Science, 100(4), 2963-2974.
- [11] Li, M., Gao, A., Wu, L., Fu, D., Kongliang X. (2016). Crosslinking formulations based on novel reactive disperse dyes for printing cotton fabrics. Textile Research Journal, 87(17), 2127-2132.
- [12] Chern, C. S., Lin, S. Y., Chen, L. J., Wu, S. C. (1997). Emulsion polymerization of styrene stabilized by mixed anionic and nonionic surfactants. Polymer, 38(8), 1977-1984.
- [13] Meng, Y., Tang, B., Xiu, J., Zheng X., Ma W. (2015). Simple fabrication of colloidal crystal structural color films with good mechanical stability and high hydrophobicity. Dyes & Pigments, 123, 420-426.
- [14] Xi, L. I, Liu, Y., Jiawen, L. I., Wen-hao H. (2010). Influence of the optical multi-film thickness on the saturation of the structural color displayed. Advances in Natural Science, 2(3), 317-323.
- [15] Cathell, M. D., Schauer, C. L. (2007). Structurally colored thin films of Ca2+-cross-linked alginate. Biomacromolecules, 8(1), 33-41.
- [16] Giesen, V., Eisenlohr, R. (1994). Pigment printing. Coloration Technology, 1994, 24(1), 26-30.
Uwagi
Opracowanie rekordu w ramach umowy 509/P-DUN/2018 ze środków MNiSW przeznaczonych na działalność upowszechniającą naukę (2019).
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-fda4a7ee-e30a-4fdb-8a44-b75a7cc91571