Open Access
Subscription Access
Open Access
Subscription Access
Appraisal of Eco Friendly Products Developed by Natural Fabric Printed With Natural Dyes and Natural Thickener
Subscribe/Renew Journal
Natural dyes and natural thickening agents appear to be ideal choice. This is because natural dyes and thickening agents have better biodegradability and higher compatibility with environment. The block and screen printed silk and cotton fabric using indigo dye with starch extracted from Mango kernel seed has been carried out. To explore the acceptability of Eco friendly printed products, for this purpose Block and screen printed products like stole, table cover, bed sheet, scarf, duppatta, Saree border, necktie, magazine holder and letter holder were hand printed using natural starch obtained by Mango kernel and natural dye concentrate. Opinion of thirty respondents was obtained. Results revealed that all the printed products were liked by all the respondents. All the respondents were willing to purchase the products.
Keywords
Natural Fabric, Natural Printing, Natural Thickening Agent, Eco Friendly Product, Acceptability Of Natural Printed Products.
Subscription
Login to verify subscription
User
Font Size
Information
- Agarwal, P. and Srivastava, M. (2008). Optimization of storage conditions for dyeing Wool with Black Kikar bark. Textile Trends”, 50 (12):35-36.
- Babel, S. and Gupta, R. (2015). Fastness properties of block printed silk with eco friendly natural dye concentrate and natural thickening agents Aug. Colourage, 62 (8) : 33-38.
- Babel, S. and Rajvanshi (2015). Block printing with dye concentrate of Butea monosperma flowers with gum extracted from waste mango Kernel and Cassia Tora seeds on cotton fabric. Internat. J. Sci. & Res. (IJSR), 4 (4) : 357-360.
- Babel, S., Gupta, R. and Mogra, D. (2015). Eco friendly screen printing using natural and indigenous thickener-mango kernel & Cassia Tora Gum. JECET, 4(2) : 412-423.
- Babel, S. and Gupta, R. (2016). Silk printing with natural thickening agent and evaluation of colour fastness properties. Manmade Textiles, 44 (3): 99-103.
- Babel, S., Gupta, R. and Mehta, M. (2016). Formulation of eco friendly print paste for block printing by natural gum extracted from Mango Kernel and Cassia tora seed with indigo dye, Internat. J. Chem., Bio., Phy. Sce.D, 3 : 576-583.
- Balamurugan, B. and Kannad asan, T. (2012). Photocatalytic oxidation of anaerobically degraded reactive red dye bath effluent. J. Environ. Res. Develop., 7(2A) : 827-837.
- Chitra, Devi T., Ravikumar, R., Kavita, N. and Sudarshana, Deepa V. (2013). Impact of agitation for the color removal from dye effluent using isolated fungal species. J. Environ. Res. Develop., 7(4A) : 1559-1564.
- Gaba, P. (2005). An exploratory research on design development from the sculpture of Chaturmukhi Jain Temple of Ranakpur. M.Sc. Thesis, Maharana Pratap University of Agriculture and Technology, Udaipur, RAJASTHAN (INDIA).
- Goyal, Varsha, Sudesh and Singh, Seema (2013). Physicochemical analysis of tensile effluents of dye and printing clusters of Bagru region, Jaipur, India, J. Environ. Res. Develop., 8(1) : 11-15.
- Hall, A.J. (1955). Handbook of textile dyeing & printing. The National Trade Press.
- Joyce, Story (1974). The Thames & Hudson Manual of Textile Printing. Thames & Hudson.
- Kaur, M., Singh, N., Sandhu, K.S. and Guraya, H.S. (2004). Physico-chemical, morphological, thermal, and rheological properties of starches separated from kernels of some Indian mango cultivars (Mangifera indica L.). Food Chem., 85 : 131– 140.
- Naik, D.J., Deasi, H.H. and Desai, T.N. (2013).Characterization and treatment of infected wastewater generated from dyes and dye intermediates manufacturing industries of Sachin industrial area, Gujarat, India, J. Environ. Res. Develop., 7(4A), 1602-1605.
- Pruthi, N., Chawla, G.S. and Yadav, S. (2008). Dyeing of silk with barberry bark dye using mordant combination, Nat. Prod. Rai., 7(1):40-44.
- Puravankara, D., Bohgra, V. and Sharma, R.S. (2000). Effect of antioxidant principles isolated from mango (Mangifera indica L.) seed kernels on oxidative stability of buffalo ghee (butter-fat). J. Sci. Food & Agric., 80 : 522–526.
- Saravana, P. and Chandra, Mohan G. (2011). Dyeing of silk with eco friendly natural dye obtained from barks of Ficusreligisa L, Univ. J. Environ. Res. Technol., 1(2): 268-273.
- Sharada, Devi A. (2013). Compendium of natural dyes, All India Coordinated Research project in Home Science, Educational Division ICAR, NEW DELHI, INDIA.
- Shenai, V.A. (1985). Technology of Printing, Technology of Textile Processing, Vol. IV, Sevak Publication, Bombay (M.S.) INDIA.
- Shenai, V.A. (1994). Technology of dyeing. Sevak Publication, Bombay (M.S.) INDIA..
- Srivastava, Meenu, Valentina and Sangeeta (2005). Effect of mordant combination on the fastness properties of silk yarn dyed with khakra gum (Butea monosperma). Manmade Text Ind., 58(6) : 344-347.
- Srivastava, M. and Udawat, P. (2008). Standardization of printing procedure on cotton fabric with kesula flowers as natural dye source-Part-I . Man Made Textiles India, 50(1) : 24-28.
- Srivastava, Meenu, Udawat, Preeti, Gupta, Richa, Singh, Shyamveer and Gupta, K.C. (2008). Dyeing of silk with natural dye extracted from polygonum amplexicaule. Man Made Textiles India, 51 (5): 157-160.
- Srivastava, M. and Udawat, P. (2009). Eco-dying of silk with Dhavdi flowers and its fastness evaluation. J. Appl., & Nat. Sci., 1 (2) : 173-179.
- Vanker, P.S., Shankar, R., Dixit, S. and Mahanta, D. (2009). Sonicator dyeing of cotton, wool and silk with leaves extract, J. Textile Apparel, Technol. Manag., 6(1) : 296-305.
- Yadav, S. (2010). Value addition of Kota Doria saree through block printing and machine embroidery. M.Sc. Thesis, Maharana Pratap University of Agriculture and Technology, Udaipur, RAJASTHAN (INDIA).
- Zein, R.E., EL-Bagoury, A.A. and Kassab, H.E. (2005). Chemical and nutritional studies on mango seed kernels. J. Agric. Sci., Mansoura University, 30 : 3285-3299.
Abstract Views: 195
PDF Views: 0