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Woolen Fabric Dyeing with Punica granatum L. Rind by Using Different Mordants
Corresponding Author(s) : Mahmure Üstün Özgür
Asian Journal of Chemistry,
Vol. 25 No. 4 (2013): Vol 25 Issue 4
Abstract
In Turkey, there exist about 150 dye plant species that could be used in dyeing. However, these plants are not sufficiently utilized in field of cultivation. Through extension of these plants cultivation in agriculture, required raw materials in vegetable dyeing could be met. Hand woven carpets and other products dyed with dye plants are important income from domestic and foreign tourism sources. The aim of the study was to determine dyeing properties of quercetin, which is extracted from Punica granatum L. rind, using different mordants and dyeing methods on wool fabrics. The effect of mixture of the tannic acid and some selected metal salts were investigated in six difference dyeing methods by using buffer solutions at pH 4 for 1 h at 98-100 ºC with closed bath dyeing technique. The colour coordinate of dyed samples were found to lie in the yellow-brown quadrant of the colour space diagram. Colour differences in CIE L*a*b* unit, optimum mordant, dyeing methods and K/S rates of dyed wool fabrics were determined. In this study, good lightfastness (3-8), rubbing fastness (4-5) approximately and antibacterial fibers were obtained.
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- C. Durmuskahya, Tubitak Sci. Technique J., 94 (2006).
- H.H. Mert, S. Baslar and Y. Dogan, Importance of Vegetable Dyes in Terms of Environmental Problems, II. International Symposium for Ecological and Environmental Problems, Ankara, Turkey, pp. 104-111 (1992).
- J. Lee, Sci. Nat. Dyes, 19 (2005).
- D. Das, S.C. Bhattacharya and S.R. Maulik, Indian J. Fibre Textile Res., 31, 559 (2006).
- S.K. Bhattacharya, C. Dutta and S.M. Chatterjee, Man-Made Textiles Indian, 45, 297 (2002).
- S.K. Bhattacharya, S.M. Chatterjee and C. Dutta, Man-Made Textiles Indian, 47, 85 (2004).
- A.A. Ansari and B.D. Thakur, Colourage, 47, 5 (2000).
- P. Gill, O.P. Singh and V. Banasthali, Colourage, 52, 55 (2005).
- S. Yasushi, Kokai Tokkyo Koho JP, Vol. 9, pp. 278-291, Ref. C.A. 127, 332745i (1997).
- J.A. Woodfolk, M.L. Hayden and N. Couture, J. Allergy Clin. Immunol., 96, 325 (1995).
- W. Chen, T. Koyama, K. Hanabusa and H. Shirai, Sen-i Gakkaishi, 51, 176 (1995).
- H. Miyamatsu, O. Kawai and M. Kubo, Kokai Tokkyo Koho (Japan), 91, 336 (1991).
- H. Miyamatsu and O. Kawai, Kokai Tokkyo Koho (Japan), 92, 358 (1992).
- M. Kaimori and T. Sugimoto, Kokai Tokkyo Koho (Japan), 95, 194 (1997).
- G. Gümrükçü and M.Ü. Özgür, Asian J. Chem., 23, 1459 (2011).
- O.I. Kvasenkov, A.B. Tyuryukov and R.I. Shazzo, Production of Quercetin by Extraction from Onion Peel and Conifer Bark Using Liquid Ammonia, Patent No: RU: 2264422, 4 pp, Ref. CAN 143:479355 (2005).
- Z. Ögütgen, Postgraduate Thesis, Woolen Fabric Dyeing with Punica granatum L. Rind by Using Different Mordants, Yildiz Technical University, Institute of Science and Technology, Istanbul, Turkey (2008).
- E. Slabbert and J. Biiss, Planta Med., 62, 212-216 (1989).
- TS 1008: Experiment Methods for Dyed and/or Printed Textile Manufactures, Method of the Determination of Color Fastness against the Light, March (1986).
- TS 717 EN ISO 105-X12: Experiment Methods for Dyed and/or Printed Textile Manufactures, Method of the Determination of Color Fastness against Rub, February (2000).
References
C. Durmuskahya, Tubitak Sci. Technique J., 94 (2006).
H.H. Mert, S. Baslar and Y. Dogan, Importance of Vegetable Dyes in Terms of Environmental Problems, II. International Symposium for Ecological and Environmental Problems, Ankara, Turkey, pp. 104-111 (1992).
J. Lee, Sci. Nat. Dyes, 19 (2005).
D. Das, S.C. Bhattacharya and S.R. Maulik, Indian J. Fibre Textile Res., 31, 559 (2006).
S.K. Bhattacharya, C. Dutta and S.M. Chatterjee, Man-Made Textiles Indian, 45, 297 (2002).
S.K. Bhattacharya, S.M. Chatterjee and C. Dutta, Man-Made Textiles Indian, 47, 85 (2004).
A.A. Ansari and B.D. Thakur, Colourage, 47, 5 (2000).
P. Gill, O.P. Singh and V. Banasthali, Colourage, 52, 55 (2005).
S. Yasushi, Kokai Tokkyo Koho JP, Vol. 9, pp. 278-291, Ref. C.A. 127, 332745i (1997).
J.A. Woodfolk, M.L. Hayden and N. Couture, J. Allergy Clin. Immunol., 96, 325 (1995).
W. Chen, T. Koyama, K. Hanabusa and H. Shirai, Sen-i Gakkaishi, 51, 176 (1995).
H. Miyamatsu, O. Kawai and M. Kubo, Kokai Tokkyo Koho (Japan), 91, 336 (1991).
H. Miyamatsu and O. Kawai, Kokai Tokkyo Koho (Japan), 92, 358 (1992).
M. Kaimori and T. Sugimoto, Kokai Tokkyo Koho (Japan), 95, 194 (1997).
G. Gümrükçü and M.Ü. Özgür, Asian J. Chem., 23, 1459 (2011).
O.I. Kvasenkov, A.B. Tyuryukov and R.I. Shazzo, Production of Quercetin by Extraction from Onion Peel and Conifer Bark Using Liquid Ammonia, Patent No: RU: 2264422, 4 pp, Ref. CAN 143:479355 (2005).
Z. Ögütgen, Postgraduate Thesis, Woolen Fabric Dyeing with Punica granatum L. Rind by Using Different Mordants, Yildiz Technical University, Institute of Science and Technology, Istanbul, Turkey (2008).
E. Slabbert and J. Biiss, Planta Med., 62, 212-216 (1989).
TS 1008: Experiment Methods for Dyed and/or Printed Textile Manufactures, Method of the Determination of Color Fastness against the Light, March (1986).
TS 717 EN ISO 105-X12: Experiment Methods for Dyed and/or Printed Textile Manufactures, Method of the Determination of Color Fastness against Rub, February (2000).