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Comfort and reflectance properties of viscose/polyester blend fabric printed by vat/disperse dyes in visible/near‐infrared region

Comfort and reflectance properties of viscose/polyester blend fabric printed by vat/disperse dyes... In this study, a viscose/polyester fabric was printed by disperse and vat dyes to match the reflectance characteristics of the NATO black and green hues with forest environment in the visible/near‐infrared (Vis‐NIR) reflection spectrum. The black and activated carbon nanoparticles were also added to the printing paste to match the reflectance of hues. Color components and Vis‐NIR reflective behavior of printed fabrics were measured by reflection spectrophotometer. The rubbing, washing and light fastness, water absorption time, air permeability, bending length, and crease recovery angle of printed fabrics were also studied. Additionally, the strength properties of samples were measured. The reflectance behavior of the samples showed that the use of the black and activated carbon nanoparticles results in diminution of the Vis‐NIR reflection. The strength, air permeability, and bending length of printed fabrics have decreased, while the angle of crease recovery and the time of water droplet absorption have increased. The rubbing, washing, and light stabilities of printed samples were also measured as appropriate. http://www.deepdyve.com/assets/images/DeepDyve-Logo-lg.png Color Research & Application Wiley

Comfort and reflectance properties of viscose/polyester blend fabric printed by vat/disperse dyes in visible/near‐infrared region

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References (26)

Publisher
Wiley
Copyright
© 2020 Wiley Periodicals, Inc.
ISSN
0361-2317
eISSN
1520-6378
DOI
10.1002/col.22486
Publisher site
See Article on Publisher Site

Abstract

In this study, a viscose/polyester fabric was printed by disperse and vat dyes to match the reflectance characteristics of the NATO black and green hues with forest environment in the visible/near‐infrared (Vis‐NIR) reflection spectrum. The black and activated carbon nanoparticles were also added to the printing paste to match the reflectance of hues. Color components and Vis‐NIR reflective behavior of printed fabrics were measured by reflection spectrophotometer. The rubbing, washing and light fastness, water absorption time, air permeability, bending length, and crease recovery angle of printed fabrics were also studied. Additionally, the strength properties of samples were measured. The reflectance behavior of the samples showed that the use of the black and activated carbon nanoparticles results in diminution of the Vis‐NIR reflection. The strength, air permeability, and bending length of printed fabrics have decreased, while the angle of crease recovery and the time of water droplet absorption have increased. The rubbing, washing, and light stabilities of printed samples were also measured as appropriate.

Journal

Color Research & ApplicationWiley

Published: Jun 1, 2020

Keywords: ; ; ; ;

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