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Mady, N., Atiha, S. (2018). Improving the Fastness and Antimicrobial Properties of Dyed Bamboo and Bamboo/ Cotton Blend with Eco-Friendly Materials. International Design Journal, 8(4), 303-310. doi: 10.21608/idj.2018.84720
Nagda Ibrahim Mady; Shaimaa Mohamed Atiha. "Improving the Fastness and Antimicrobial Properties of Dyed Bamboo and Bamboo/ Cotton Blend with Eco-Friendly Materials". International Design Journal, 8, 4, 2018, 303-310. doi: 10.21608/idj.2018.84720
Mady, N., Atiha, S. (2018). 'Improving the Fastness and Antimicrobial Properties of Dyed Bamboo and Bamboo/ Cotton Blend with Eco-Friendly Materials', International Design Journal, 8(4), pp. 303-310. doi: 10.21608/idj.2018.84720
Mady, N., Atiha, S. Improving the Fastness and Antimicrobial Properties of Dyed Bamboo and Bamboo/ Cotton Blend with Eco-Friendly Materials. International Design Journal, 2018; 8(4): 303-310. doi: 10.21608/idj.2018.84720

Improving the Fastness and Antimicrobial Properties of Dyed Bamboo and Bamboo/ Cotton Blend with Eco-Friendly Materials

Article 23, Volume 8, Issue 4 - Serial Number 28, October 2018, Page 303-310  XML PDF (2.28 MB)
Document Type: Original Article
DOI: 10.21608/idj.2018.84720
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Authors
Nagda Ibrahim Mady1; Shaimaa Mohamed Atiha2
1Assistant Professor, Department of Textile and Clothing, Faculty of Specific Education, Alexandria University
2Lecturer, Department of Textile and Clothing, Faculty of Specific Education, Alexandria University.
Abstract
Eco friendly effective fixing agent in dyeing bamboo fabrics with reactive dyes is chitosan. Bamboo dying is problematic with acidic dyes, and needs a fixing agent. Dye uptake was increased significantly with the increase of chitosan concentration gradually from 4% to12%. Colour yield measured by K/S values gave the highest K/ S value at the chitosan concentration 12%. Colour fastness was reduced in the treated samples than that of the untreated ones it was observed that there is reverse relation between colour yield and colour fastness. Antimicrobial activity was enhanced with the different chitosan concentrations, but the highest anti-microbial activity was recorded with the chitosan concentration 12%. 
Keywords
Anti; microbial fastness properties chitosan bamboo
References

1.        Paul W., C.P. Sharma, chitosan and alginate wound dressings: A short review, Trends. Biomater. Artif. Organs. 18 (2004) 18-23.

2.        Dutta P.K., J.D. Dutta, V.S. Tripathi, Chitin and chitosan chemistery properties and applications, J. Sci. Ind. Res. 63 (2004) 20-31.

3.        Riva R., H. Ragelle, A. des Rieux, N. Duhem, C. Jérôme, V. Préat, chitosan and chitosan derivatives in drug delivery and tissue engineering, Adv. Advance Polym. Sci. 244 (2011) 19–44.

4.        Wan Ngah W.S., L.C. Teong, M.A. Hanafiah, Adsorption of dyes and heavy metal ions by chitosan composites: A review Carbohydrate Polymers, Elsevier. 83 (2011)1446–1456.

5.        Lim S.H., S.M. Hudson, Review of chitosan and its derivatives as antimicrobial agents and their uses as textile chemicals, J. Macromol. Sci. Polymer Rev. 43 (2003) 223–269.

6.        Sunder A.E., G.S. Nalankilli, P.N. Wany, Multifunctional finishes on cotton textile using combination of chitosan and poly carboxylic acids, IJFTR. 39 (2014) 418-424.

7.        Tang R., Z. Yu, Y. Zhang, C. Qi, Synthesis, characterization, and properties of antibacterial dye based on chitosan, Cellulose. 23 (2016) 1741–1749.

8.        Moses J. Jeyakodi, V.K. Venkataraman, Study of chemical treated cotton fabric for functional finishes using chitosan, JTATM. 10 (2016) 1-17.

9.        Lee S.H., M.J. Kim, H. Park, Characteristics of cotton fabrics treated with epichlorohydrin and chitosan, J. Appl. Polym. Sci. 117 (2010) 623–628.

10.     Bhuiyan M.R., A. Shaid, M.A. Khan, Cationization of cotton fiber by chitosan and its dyeing with reactive dye without salt, Chem. Mate. Eng. 2 (2014) 96–100.

11.     Houshyar S., S. Amirshahi, Treatment of cotton with chitosan and its effect on dyeability with reactive dyes, Iranian. Polym. J. 11 (2002) 295-301.

12.     Shin Y., D. Yoo, Dyeing and antimicrobial properties of chitosan-treated bamboo/cotton blended fabric with dye from pomegranate rind, Text. Sci. Eng. 53 (2016) 63-67

13.     Rahman M.A. Bhuiyan, A. Shaid, M.M. Bashar, P. Haque, M.A. Hannan, A novel approach of dyeing jute fiber with reactive dye after treating with chitosan, OJOPM. 3 (2013) 87-91.

 

14.     Tang R., Z. Yu, Y. Zhang, C. Qi, Mechanisms and properties of chitosan-assisted bamboo dyeing, Biorecourses 10  (2015) 3326-3336.

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