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The influence of pH adjusted with different acids on the dyeability of polyester fabric

Treść / Zawartość
Warianty tytułu
Języki publikacji
EN
Abstrakty
EN
The infl uence of using formic, oxalic, citric, tartaric, hydrochloric, nitric, sulphuric and phosphoric acid for dyebath pH adjustment was investigated upon the dyeing of polyester fabric with CI Disperse Yellow 60. The positions of colour in CIELab coordinates of the samples dyed with the addition of tested acids were assessed and compared to those dyed with the addition of acetic acid. It was found that the differences in dyeabilities obtained with the addition of citric, oxalic, hydrochloric, nitric and sulphuric acid are entirely acceptable according to both M&S 83A and CMC (2:1) standards in comparison to the dyeability obtained with the addition of acetic acid.
Słowa kluczowe
EN
polyester   dyeing   disperse   dyes   pH   AIDS  
Rocznik
Strony
1--5
Opis fizyczny
Bibliogr. 12 poz., rys., tab
Twórcy
  • University of Niš, Faculty of Mathematics and Natural Sciences, Department of Chemistry, 18000 Niš, Serbia
  • University of Niš, Faculty of Technology, Department of Textlie Engineering, 16000 Leskovac, Serbia
  • University of Niš, Faculty of Technology, Department of Textlie Engineering, 16000 Leskovac, Serbia
  • University of Niš, Faculty of Technology, Department of Textlie Engineering, 16000 Leskovac, Serbia
  • University of Niš, Faculty of Technology, Department of Textlie Engineering, 16000 Leskovac, Serbia
Bibliografia
  • 1. Burkinshaw, S.M. (1995). Chemical Principles of Sinthetic Fibre Dyeing. London: Blackie Academic & Professional.
  • 2. Perepelkin, K.E. (2009). Structure and structure mechanics of polymer fi bres: current concepts. Fibre Chem. 41, 9–21. DOI: 10.1007/s10692-009-9120-3.
  • 3. Aspland, J.R. (1997). Textile Dyeing and Coloration. Research Triangle Park: American Association of Textile Chemists and Colorists.
  • 4. Ferus-Comelo, M., Clark, M. & Parker, S. (2005). Optimisation of the disperse dyeing process using dyebath analysis. Color Technol. 121, 255–257.
  • 5. Anandjiwala, R., Hunter, L., Kozlowski, R. & Zaikov, G. (2007). Textiles for sustainable development. Inc. New York: Nova Science Publishers.
  • 6. Koh, J., Kim, J.D. & Kim, J.P. (2003). Synthesis and application of a temporarily solubilised alkali-clearable azo disperse dye and analysis of its conversion and hydrolysis behaviour. Dyes Pigments. 56(1), 7–26. DOI: 10.1016/S0143-7208(02)00110-9.
  • 7. Lee, J.J., Han, N.K., Lee, W.J., Choi, J.H. &, Kim, J.P. (2002). Dispersant-free dyeing of polyester with temporarily solubilised azo disperse dyes from 1-substituted-2-hydroxypirid-6-one derivatives. Color Technol. 118, 154–158.
  • 8. Lee, W.J. & Kim, J.P. (1999). The rate of hydrolysis of temporarily solubilised disperse dyes. Color Technol. 115, 270–273.
  • 9. Baig, G.A. (2013). Reduction cleaning of simulated disperse dyed PLA fabrics and their tensile properties. Indian J. Fibre Textile. 38, 22–28.
  • 10. Mirabella, F.M. (1998). Modern Techniques in Applied Molecular Spectroscopy. New York: John Wiley & Sons.
  • 11. Zarubina, N.P., Zavadskaya, L.K. & Telegin, F.Yu. (2004). Spectral study of state of dyes in chemical fi bres. Fibre Chem. 36, 278–282. DOI 10.1023/B:FICH.0000047371.94476.66
  • 12. Qian H.F. & Song X.Y. (2009). Adsorption behaviour of azo disperse dyes polyurethane fi bre. Color Technol. 125, 141–145.
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-d8c0c1f5-e09b-4f11-a3d0-2185c4092e31
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