Dyeing of synthetic fiber-based wool blended fabrics in supercritical carbon dioxide

Development of supercritical carbon dioxide (SC-CO 2 ) dyeing technology for natural fabrics and their blended fabrics is essential for the textile industry due to environmental and economic considerations. Wool (W), polyester (PET) and nylon (N) fabrics and their wool/polyester (W/PET) and wool/nyl...

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Bibliographic Details
Published in:Scientific reports 2024-12, Vol.14 (1), p.30604
Main Authors: Mousa, Abdalla A., Mohamed, Fatma A., Abd El-Megied, Saadia A., Youssef, Yehya A.
Format: Article
Language:English
Subjects:
639/638
704/172
Carbon dioxide
Color
Colorimetry
Dyes
Fabrics
Fibers
Humanities and Social Sciences
multidisciplinary
Nylon
Polyesters
Science
Science (multidisciplinary)
Synthetic fibers
Textile industry
Wool
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Summary:Development of supercritical carbon dioxide (SC-CO 2 ) dyeing technology for natural fabrics and their blended fabrics is essential for the textile industry due to environmental and economic considerations. Wool (W), polyester (PET) and nylon (N) fabrics and their wool/polyester (W/PET) and wool/nylon (W/N) blended fabrics were dyed in SC-CO 2 medium with a synthesized reactive disperse dye containing a vinylsulphone (VS) reactive group, which behaves as a disperse dye for synthetic fibers and a reactive dye for protein fibers. The SC-CO 2 dyeing performance of all fabrics was investigated in terms of color strength, fixation, colorimetric and fastness measurements and compared with the conventional aqueous dyeing method. The results obtained indicate that the VS reactive disperse dye structure and non-polar PET component mainly improved colour strength (K/S) values of the dyed PET fabric and W/PET blended fabrics in SC-CO 2 compared with those in the aqueous medium. Also, SC-CO 2 dyeing has a notable influence on a*, b* and C* values of the dyed PET, N and W/PET fabrics and showed that the uptake of the VS reactive disperse dye and their appearance colors are higher and more saturated than the aqueous dyed samples. The levelling and fastness properties of all dyed fabrics in SC-CO 2 medium are similar to those obtained in the aqueous medium. It was observed that VS reactive disperse dye penetrates well into the PET fabric and is chemically bound with the W fabric using both SC-CO 2 and aqueous media and did not display significant color difference (∆E) values of W, PET and W/PET fabrics even after 20 washing cycles. The study claims that the VS reactive disperse dye structure and dyed PET-based wool blended fabric are good candidates for industrially SC-CO 2 dyeing technology.
ISSN:2045-2322
2045-2322
DOI:10.1038/s41598-024-81417-8