Asian Journal of Home Science

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Cotton Khadi Fabric Dyeing with Natural Dye Extracted from the Petals of Butea monosperma Flower Using Different Mordants


Affiliations
1 Department of Textiles and Apparel Designing, College of Home Science, Maharana Pratap University of Agriculture and Technology, Udaipur (Rajasthan), India
     

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Natural dyes are eco-friendly, biodegradable, non-toxic, and having no side effects on skin as compared to synthetic dyes. These dyes obtained from different natural sources which may be animal and plants sources (like stem, bark, flowers, leafs and ischolar_mains of the plants). In the present work, dye was extracted from the petals of Butea monosperma flowers were used for natural colouring to cotton Khadi fabric with different concentrations of dye i.e. 10%, 20% and 30% using five different types of mordant i.e. P. granatum, P. emblika T. bellirica, A. catechu and F. sulfate (Iron (II) sulfate heptahydrate) at three different concentration (5%, 10% and 15%). Dyed Khadi fabric was evaluated for colour fastness towards washing, rubbing, and sunlight. Cotton Khadi fabric samples dyed with B. monosperma with 30% concentration of dye and 15 per cent mordants concentration using pre-mordanting method gavegood to excellent wash and rub fastness ratingswith all mordants. P. granatum and T. bellirica mordants with premordanting method using different mordant’s concentrations i.e. 5%, 10% and 15% as compare to all other mordants produced moderate fading to no fading against blue dyed standards of 1- 8 rating scale. The dyed samples showed very good colour strength (K/S) and colourimetric appearance using CIE L* a* b* colour space in terms of colour co-ordinates. The fabric samples mordanted with P. granatum gave very good colour strength with all concentrations of dye and mordants as compare to other mordants, respectively. Large ranges of shades were obtained using different types of mordants and their concentrations with petals of Butea monosperma dye.

Keywords

Natural Dye, Butea monosperma, Colour Fastness, Colour Strength, Cotton Khadi Fabric.
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  • Adeel, S., Bhatti, I. A., Safia, R., Tahsin, G., Naz, S. and Mansour, H.F. (2012). Influence of UV radiation on extraction and dyeing of cotton fabrics using eucalyptus bark powder as natural dye. Res. J. Textile & Apparel., 16(2) : 62.

  • Bukhari, M.N., Shabbir, M., Rather, L.J., Shahid, M., Singh, U., Khan, M.A. and Mohammad, F. (2017). Dyeing studies and fastness properties of brown naphtoquinonecolourant extracted from Juglans regia L. on natural protein fiber using different metal salt mordants. Textiles & Clothing Sustainability 3(1) : 3.

  • Choedon, T., Shukla, S.K. and Kumar, V. (2010). Chemopreventive and anti-cancer properties of the aqueous extract of flowers of Buteamonosperma. J. Ethnopharmacol., 129 : 208–213.

  • Farid, A.F. (2015). Colour fastness properties of mordants and mordanting methods when dyed with used tea leaves on silk fabric. Internat. J. Engg. Sci. & Res. Technol., 4 (9) : 512-518.

  • Firdaus, R. and Mazumder A. (2012). Review on Butea monosperma. Internat. J. Res. Pharmacy & Chem. IJRPC, 2(4) : 1035-1041.

  • Ganesan, P. and Karthik, T. (2017). Analysis of colour strength, colour fastness and antimicrobial properties of silk fabric dyed with natural dye from red prickly pear fruit. J. Textile Institute, 108 (7) : 1173-1179, DOI: 10.1080/00405000.2016.1222862

  • Guesmi, A., Hamadi, N. Ben, Ladhari, N. and Sakli, F. (2012). Dyeing properties and colour fastness of wool dyed with indicaxanthin natural dye. Industrial Crops & Products, 37(1) : 493–499. http://doi.org/10.1016/j.indcrop.2011.07.026

  • Husain, Q. (2006). Potential applications of the oxidoreductive enzymes in the decolourization and detoxification of textile and other synthetic dyes from polluted water: a review. Crit. Rev. Biotechnol., 26 (4): 201-221

  • Kumar, S.V., Anna, J.L., Vijayeeswarri, J. and Swaminathan, G. (2009). Ultrasound assisted enhancement in natural dye extraction from beetischolar_main for industrial applications and natural dyeing of leather.Ultrasonics Sonochemistry, 16 (6): 782-789

  • Kumaresan, M., Palanisamy, P.N. and Kumar, P.E. (2012). Application of eco-friendly natural dye obtained from Cordiasebestena on cotton using combination of mordants. J. Natural Product & Plant Resources, 2(1) : 32

  • Krolikiewicz-Renimel, I., Michel, T., Destandau, E., Reddy, M., Andre, P., Elfakir, C. and Pichon, C. (2013). Protective effect of a Butea monosperma (Lam.) Taub.flowers extract against skin inflammation: antioxidant, anti-inflammatory and matrix metalloproteinases inhibitory activities. J. Ethnopharmacol. 148(2) : 537-543.

  • Mahangade, R.R., Varadarajan, P.V., Verma, J.K. and Bosco, H. (2009). New DyeingTechniques for Enhancing Color Strength and Fastness Properties of Cotton Fabric Dyed with Natural Dyes. IJFTR, 34 : 279-282.

  • Pant, S. and Sharma, M. (2009). Improving colour fastness of direct dyed cotton Khadi fabric.Textile Magazine, 50(12): 66.

  • Prabhu, K.H., Teli, M.D. and Waghmare, Nilesh G. (2011). Eco-friendly dyeing using natural mordant extracted from Emblica officinalis G. Fruit on cotton and silk fabrics with antibacterial activity. Fibers & Polymers, 12 : 753.

  • Rasheed, Z., Akhtar, N., Khan, A., Khan, K.A. and Tariq, M., (2010). Butrin, isobutrin, and butein from medicinal plant Buteamonosperma selectively inhibit nuclear factor B in activated human mast cells: suppression of tumor necrosis factor á, interleukin (IL)-6, and IL-8. J. Pharmacol. & Experimental Therapeutics, 333 : 354–363.

  • Samanta Kumar, A., Agarwal, P. and Datta, S. (2009). Physicochemical studies on dyeing of jute and cotton fabrics using jackfruit wood extract: Part II — Dyeing kinetics and thermodynamic studies. IJFTR, 33 (1) : 66-72.

  • Sinha, K., Saha, P.D. and Datta, S. (2012). Extraction of natural dye from petals of flame of forest (Butea monosperma) flower: Process optimization using response surface methodology (RSM). Dyes & Pigments, 94(2) : 212–216.

  • Teli, M.D., Sheikh, J. and Shastrakar, P. (2013). Exploratory investigation of Chitosan as mordant for eco-friendly antibacterial printing of cotton with natural dyes. J. Textiles, 2013 : 1-6

  • Tiwari, A. and Jain, R. (2017). Effect of mercerization under tension on the drapability and strength of cotton Khadi fabric. Internat. J. Res. Appl., Natural & Soc. Sci., 5(4) : 19-26.

  • Tiwari, A. and Srivastava, M. (2017). Eco-friendly dyeing of cotton Khadi fabric with Rubiacordifolia as dye source. Man Made Textiles India, 45(7) : 231-235.

  • Tiwari, H.S., Singh, P., Mishra, P.K. and Srivastav, P. (2010). Evolution of various techniques for extraction of natural colourant from pomegranate rind- Ultra sound and enzyme assisted extraction. Indian J. Fiber &Textile Res.., 35 (8):272-276

  • Yadava R.N. and Tiwari, L. (2007). New antifungal flavone glycoside from Butea monosperma. J. Enzyme Inhibitory MedicinalChem., 22(4): 497-500.

  • Yusuf, M., Mohammad, F., Shabbir, M. and Mohammad, A.K. (2016). Eco-dyeing of wool with Rubiacordifolia ischolar_main extract: Assessment of the effect of Acacia catechuasbiomordant on colour and fastness proper ties. Textiles & Clothing Sustainability, 2 (10) : 1186.


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  • Cotton Khadi Fabric Dyeing with Natural Dye Extracted from the Petals of Butea monosperma Flower Using Different Mordants

Abstract Views: 192  |  PDF Views: 0

Authors

Adya Tiwari
Department of Textiles and Apparel Designing, College of Home Science, Maharana Pratap University of Agriculture and Technology, Udaipur (Rajasthan), India
Meenu Srivastava
Department of Textiles and Apparel Designing, College of Home Science, Maharana Pratap University of Agriculture and Technology, Udaipur (Rajasthan), India

Abstract


Natural dyes are eco-friendly, biodegradable, non-toxic, and having no side effects on skin as compared to synthetic dyes. These dyes obtained from different natural sources which may be animal and plants sources (like stem, bark, flowers, leafs and ischolar_mains of the plants). In the present work, dye was extracted from the petals of Butea monosperma flowers were used for natural colouring to cotton Khadi fabric with different concentrations of dye i.e. 10%, 20% and 30% using five different types of mordant i.e. P. granatum, P. emblika T. bellirica, A. catechu and F. sulfate (Iron (II) sulfate heptahydrate) at three different concentration (5%, 10% and 15%). Dyed Khadi fabric was evaluated for colour fastness towards washing, rubbing, and sunlight. Cotton Khadi fabric samples dyed with B. monosperma with 30% concentration of dye and 15 per cent mordants concentration using pre-mordanting method gavegood to excellent wash and rub fastness ratingswith all mordants. P. granatum and T. bellirica mordants with premordanting method using different mordant’s concentrations i.e. 5%, 10% and 15% as compare to all other mordants produced moderate fading to no fading against blue dyed standards of 1- 8 rating scale. The dyed samples showed very good colour strength (K/S) and colourimetric appearance using CIE L* a* b* colour space in terms of colour co-ordinates. The fabric samples mordanted with P. granatum gave very good colour strength with all concentrations of dye and mordants as compare to other mordants, respectively. Large ranges of shades were obtained using different types of mordants and their concentrations with petals of Butea monosperma dye.

Keywords


Natural Dye, Butea monosperma, Colour Fastness, Colour Strength, Cotton Khadi Fabric.

References