This study examines in detail the influence of low-temperature plasma and biopolymer chitosan treatments on wool dyeability. Wool knitted fabrics were treated and characterized by whiteness and shrink-resistance measurements. Surface modification was assessed by contact-angle measurements of human hair fibers, which were used as a model to study the wetting properties of the treated wool knitted fabrics. The dyeing behavior was assessed from the diffusion mechanism point of view. The dyeing kinetics were measured at two different pHs (4.2 and 6.5) and three different temperatures (60, 85, and 100 degrees C) to gain information about the contribution of the surface modification treatment to the dyeing mechanism. The exhaustion and reflectance data were compared, and the apparent diffusion coefficients were calculated. On the basis of the obtained results, a model for the dyeing mechanism of the chitosan treated wool was proposed. When treated with chitosan, the polymer sheath spread on ...the surface of the fibers acted as a predominant dyeing site in very short dyeing times, thus interacting with the dye and in later stages imparting the dye to the wool fiber.
TY - JOUR
AU - Jocić, Dragan
AU - Vilchez, S
AU - Topalović, Tatjana
AU - Molina, Ricardo
AU - Navarro, Antonio
AU - Jovančić, Petar
AU - Julia, MR
AU - Erra, P
PY - 2005
UR - http://TechnoRep.tmf.bg.ac.rs/handle/123456789/787
AB - This study examines in detail the influence of low-temperature plasma and biopolymer chitosan treatments on wool dyeability. Wool knitted fabrics were treated and characterized by whiteness and shrink-resistance measurements. Surface modification was assessed by contact-angle measurements of human hair fibers, which were used as a model to study the wetting properties of the treated wool knitted fabrics. The dyeing behavior was assessed from the diffusion mechanism point of view. The dyeing kinetics were measured at two different pHs (4.2 and 6.5) and three different temperatures (60, 85, and 100 degrees C) to gain information about the contribution of the surface modification treatment to the dyeing mechanism. The exhaustion and reflectance data were compared, and the apparent diffusion coefficients were calculated. On the basis of the obtained results, a model for the dyeing mechanism of the chitosan treated wool was proposed. When treated with chitosan, the polymer sheath spread on the surface of the fibers acted as a predominant dyeing site in very short dyeing times, thus interacting with the dye and in later stages imparting the dye to the wool fiber.
PB - John Wiley & Sons Inc, Hoboken
T2 - Journal of Applied Polymer Science
T1 - Effect of low-temperature plasma and chitosan treatment on wool dyeing with acid red 27
EP - 2214
IS - 6
SP - 2204
VL - 97
DO - 10.1002/app.21866
ER -
@article{
author = "Jocić, Dragan and Vilchez, S and Topalović, Tatjana and Molina, Ricardo and Navarro, Antonio and Jovančić, Petar and Julia, MR and Erra, P",
year = "2005",
abstract = "This study examines in detail the influence of low-temperature plasma and biopolymer chitosan treatments on wool dyeability. Wool knitted fabrics were treated and characterized by whiteness and shrink-resistance measurements. Surface modification was assessed by contact-angle measurements of human hair fibers, which were used as a model to study the wetting properties of the treated wool knitted fabrics. The dyeing behavior was assessed from the diffusion mechanism point of view. The dyeing kinetics were measured at two different pHs (4.2 and 6.5) and three different temperatures (60, 85, and 100 degrees C) to gain information about the contribution of the surface modification treatment to the dyeing mechanism. The exhaustion and reflectance data were compared, and the apparent diffusion coefficients were calculated. On the basis of the obtained results, a model for the dyeing mechanism of the chitosan treated wool was proposed. When treated with chitosan, the polymer sheath spread on the surface of the fibers acted as a predominant dyeing site in very short dyeing times, thus interacting with the dye and in later stages imparting the dye to the wool fiber.",
publisher = "John Wiley & Sons Inc, Hoboken",
journal = "Journal of Applied Polymer Science",
title = "Effect of low-temperature plasma and chitosan treatment on wool dyeing with acid red 27",
pages = "2214-2204",
number = "6",
volume = "97",
doi = "10.1002/app.21866"
}
Jocić, D., Vilchez, S., Topalović, T., Molina, R., Navarro, A., Jovančić, P., Julia, M.,& Erra, P.. (2005). Effect of low-temperature plasma and chitosan treatment on wool dyeing with acid red 27. in Journal of Applied Polymer Science
John Wiley & Sons Inc, Hoboken., 97(6), 2204-2214.
https://doi.org/10.1002/app.21866
Jocić D, Vilchez S, Topalović T, Molina R, Navarro A, Jovančić P, Julia M, Erra P. Effect of low-temperature plasma and chitosan treatment on wool dyeing with acid red 27. in Journal of Applied Polymer Science. 2005;97(6):2204-2214.
doi:10.1002/app.21866 .
Jocić, Dragan, Vilchez, S, Topalović, Tatjana, Molina, Ricardo, Navarro, Antonio, Jovančić, Petar, Julia, MR, Erra, P, "Effect of low-temperature plasma and chitosan treatment on wool dyeing with acid red 27" in Journal of Applied Polymer Science, 97, no. 6 (2005):2204-2214,
https://doi.org/10.1002/app.21866 . .
