Access the full text.
Sign up today, get DeepDyve free for 14 days.
Loading next page...
/lp/emerald-publishing/kinetic-and-diffusion-studies-of-a-dye-extracted-from-sesbania-DQdSeAvPGA
References (26)
-
P.V. Mehta, S.K. Bhardwaj
Managing Quality in the Apparel Industry -
K. Xie, Yan Sun, Aiqin Hou (2007)
Diffusion properties of reactive dyes into net modified cotton cellulose with triazine derivativeJournal of Applied Polymer Science, 103
-
K. Vinod, Puttaswamy, K. Gowda, R. Sudhakar (2010)
Isolation of Natural Colorants from Lagerstroemia indica: Kinetic and Adsorption StudiesChinese Journal of Chemistry, 28
-
A. Prasad
Power to the people -
R. Siva (2007)
Status of natural dyes and dye-yielding plants in IndiaCurrent Science, 92
-
J. Wiener (2011)
Properties of Wool and Cotton Fabrics Dyed with Eucalyptus, Tannin and Flavonoids Rattanaphol MongkholrattanasitFibres & Textiles in Eastern Europe
-
A. Samanta, Priti Agarwal (2009)
Application of natural dyes on textiles -
D. Das, S. Bhattacharya, S. Maulik (2006)
Dyeing of wool and silk with Punica granatum -
P. Vankar, R. Shanker, Shalini Dixit, Debajit Mahanta, S. Tiwari (2008)
Sonicator dyeing of cotton with the leaves extract Acer pectinatum WallichPigment & Resin Technology, 37
-
Lijuan Wang, Jian Li, Hao Feng (2009)
Dyeing of flax fabric with natural dye from chestnut shellsPigment & Resin Technology, 38
-
D. Cardon (2010)
Natural dyes, our global heritage of colours -
P. Oudhia
Traditional medicinal knowledge about common herb, Dhaincha ( Sesbania sp. ) in Chhattisgarh, India -
J.D.J. Ingle, S.R. Crouch
Spectrochemical Analysis -
D. Das, S. Maulik, S. Bhattacharya (2008)
Colouration of wool and silk with Rheum emodi -
J. Duke (1982)
Handbook of LEGUMES of World Economic Importance -
L. Misra, S. Siddiqi (2004)
Dhaincha (Sesbania bispinosa) leaves: A good source of antidiabetic (+)-pinitol -
V.B. Gupta, A. Gupta, Viswanathan Rajan, N. Kasturia (1984)
Dye Diffusion in Poly(ethylene Terephthalate) FibersTextile Research Journal, 54
-
R. Mongkholrattanasit, J. Kryštůfek, J. Wiener, J. Studničková
Properties of wool and cotton fabrics dyed with eucalyptus, tannin, and flavonoids -
F. Castro (1980)
Tropical legumes: resources for the future (national academy of sciences), 12
-
K. Rachie (1979)
Tropical legumes: resources for the future. -
Young-Hee Lee, E. Hwang, Young-Jin Jung, Seong‐Kook Do, H. Kim (2010)
Dyeing and deodorizing properties of cotton, silk, wool fabrics dyed with Amur Corktree, Dryopteris crassirhizoma, Chrysanthemum boreale, Artemisia extractsJournal of Applied Polymer Science, 115
-
AATCC
Technical Manual -
M. Kamel, R. El-Shishtawy, B. Youssef, Hamada Mashaly (2007)
Ultrasonic assisted dyeing. IV. Dyeing of cationised cotton with lac natural dyeDyes and Pigments, 73
-
P.S. Vankar, R. Shanker, S. Wijayapala
Utilizatation of temple waste flower – tagetes erecta for dyeing of cotton, wool and silk on industrial scale -
P.S. Vankar
Handbook on Natural Dyes for Industrial Applications -
P. Vankar, R. Shanker, S. Wijayapala (2009)
Dyeing of cotton, wool and silk with extract of Allium cepaPigment & Resin Technology, 38
- Publisher
- Emerald Publishing
- Copyright
- Copyright © 2014 Emerald Group Publishing Limited. All rights reserved.
- ISSN
- 0369-9420
- DOI
- 10.1108/PRT-06-2012-0041
- Publisher site
- See Article on Publisher Site
Abstract
Purpose – The purpose of this paper is to evaluate the efficacy and kinetics along with diffusion properties of a new source of natural dye obtained from leaves and fine stems of the Sesbania aculeata plant, using metallic mordants for cotton dyeing. Design/methodology/approach – The approach followed in this work is to conduct experiments with the application of the natural dye obtained from Sesbania aculeata plant and to study the kinetics, dye uptake and the diffusion properties of this dye. Findings – Sesbania aculeata with simultaneous mordanting with different metal mordants imparted shades which varied from cream to light brown to dark brown in case of aqueous extract. The different mordants used not only changed the hue colour and K/S values but also L* and brightness index values. The results of fastness properties of the dyes were found to vary from fair to good. The percentage dye exhaustion values varied with different mordants. The dye uptake value increased with time and reached its saturation limit after 4 hours of dyeing. In the absence of mordants, the diffusion coefficient values increased with increase in the temperature. In the presence of mordants, the diffusion process appears to slow down, which could be attributed to the binding effects of mordants. Research limitations/implications – The extraction and dyeing process of Sesbania aculeata plant is less tedious and time consuming compared to the other sources of natural dyes. Practical implications – Sesbania aculeata is relatively easier to grow and does not require much tending operations. Thus, it promises to be an affordable source of natural dye. If this dye is commercialised, it will help to generate sustainable employment and income for the farmers in rural and sub‐urban areas. This could be both for dyeing and for non‐food crop farming. Originality/value – An advantageous feature of this plant, in contrast to the other natural dyes based on vegetable and fruit sources, is that its usage in making the natural dye does not result in any wastage of an otherwise highly commercial product. The current experimental study on a new source of natural dye would be a significant contribution to the existing database of knowledge regarding the kinetics and diffusion properties of natural dyes. There are several reported studies in the literature pertaining to the application of natural colourants and evaluation of their dyeing properties on various fibers. However, relatively fewer studies exist on the kinetic and exhaustion aspects. Thus, the current study would help to develop a set of predictable settings for application of natural dyes on various textiles.
Journal
Pigment & Resin Technology – Emerald Publishing
Published: Apr 29, 2014
Keywords: Sesbania aculeata ; Absorbance; Cotton; Diffusion coefficient; Dye exhaustion; Dye uptake