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USE OF DIFFERENT NATURAL DYE SOURCES FOR PRINTING OF COTTON FABRICS

Year 2017, Volume: 27 Issue: 3, 259 - 265, 30.09.2017

Abstract

In the study it was aimed to print cotton fabrics with natural dye sources to respond the demands on the natural products and cleaner production. For this purpose, bleached, bleached and mercerized cotton fabrics were colored by pigment printing method with the use of the extracts obtained from the five different natural dye sources “pomegranate peel, nutshell, orange tree leaves, alkanet roots and dyer's chamomile". By this way it was planned to show the coloration of cotton with natural dye sources. For the environmentally friendly production, no mordanting has been applied but good colors with sufficient fastnesses were observed from the printed fabrics nonetheless. In printing process, binder was used instead of mordanting agents for the fixing of the dye stuff. Like in other dyeing and printing processes, it was found that pretreatment processes had an effect on the printability of cotton with natural dyes. By mercerization higher color efficiencies, darker shades and meanwhile increases in light fastnesses and decreases in washing and perspiration fastnesses were generally obtained.

References

  • 1. Cook J.G., 1993, “Handbook of Textile Fibres: I. Natural Fibres”, 5th ed. repr., Durham England: Merrow Publishing Co. Ltd., pp.73.
  • 2. Tavčer P.F., 2011, “Dyeing of environmentally friendly pretreated cotton fabric”, In: Textile Dyeing, ed. P. J. Hauser, Rijeka, Croatia: InTech. pp. 77.
  • 3. Wakelyn P. J., Bertoniere N. R., French A. D., Thibodeaux D. P., Triplett B. A., Rousselle M. A., Goynes W. R., Edwards J.V., Hunter L., McAlister D. D. and Gamble G. R., 2007, “Cotton Fibers”, In: Handbook of Fiber Chemistry, (3rd ed.), ed. M. Lewin, Boca Raton USA: CRC Press, Taylor & Francis Group, pp. 620.
  • 4. Moore S.B., Ausley L.W., 2004, “Systems thinking and green chemistry in the textile industry: concepts, technologies and benefits”, Journal of Cleaner Production, Vol:12(6), pp: 585-601.
  • 5. Samanta A. K. and Konar A., 2011, “Dyeing of Textiles with Natural Dyes”, In: Natural dyes, ed. E. P. Akçakoca Kumbasar, Croatia: InTech, pp. 29-56 (ISBN 978-953-307-783-3).
  • 6. Bahtiyari M.İ., Benli H., Yavaş A., 2013, “Printing of wool and cotton fabrics with natural dyes”, Asian Journal of Chemistry, Vol:25(6), pp:3220-3224.
  • 7. El-Molla M.M., Schneider R., 2006, “Development of ecofriendly binders for pigment printing of all types of textile fabrics”, Dyes and Pigments, Vol: 71(2), pp: 130-137.
  • 8. Özgüney A. T., Seçim P., Demir A., Gülümser T., Özdoğan E., 2015, “Ecological Printing of Madder Over Various Natural Fibres”, Tekstil Ve Konfeksiyon, Vol:25(2), pp:166-171.
  • 9. Agarwal R., Pruthi N., Singh S. J. S., 2007, “Effect of mordants on printing with Marigold flowers dye”,. Natural Product Radiance, Vol: 6(4), pp:306–309.
  • 10. El-Hennawi H.M., Ahmed K.A., Abd El-Thalouth I., 2012, “A novel bio-technique using laccase enzyme in textile printing to fix natural dyes”, Indian Journal of Fibre & Textile Research, Vol:37(3), pp:245-249.
  • 11. Ajmal M., Adeel S., Azeema M., Zuber M., Akhtar N., Iqbal N., 2014, “Modulation of pomegranate peel colourant characteristics for textile dyeing using high energy radiations”, Industrial Crops and Products, Vol:58, pp: 188–193.
  • 12. Kulkarni S.S., Gokhale A.V., Bodake U.M., Pathade G.R., 2011, “Cotton dyeing with natural dye extracted from pomegranate (Punica granatum) peel”, Universal Journal of Environmental Research and Technology, Vol: 1(2), pp: 135-139.
  • 13. Adeel S., Ali S., Bhatti I.A., Zsila F., 2009, “Dyeing of cotton fabric using pomegranate (Punica granatum) aqueous extract”, Asian Journal of Chemistry, Vol: 21(5), pp: 3493-3499.
  • 14. Güneş E., Atav R., 2017, “The use of nutshell firstly as a natural dye for cotton and wool and then as a natural adsorbent for colour removal of basic dye effluent”, Coloration Technology, Vol 133(1), pp: 88-93.
  • 15. Ferreira E.S.B., Hulme A.N., McNab H., Quye A., 2004, “The natural constituents of historical textile dyes”, Chemical Society Reviews, Vol: 33, pp: 329- 336.
  • 16. Hartl A., Vogl C.R., 2003, “The potential use of organically grown dye plants in the organic textile industry: Experiences and results on cultivation and yields of Dyer’s Chamomile (Anthemis tinctoria L.), Dyer’s Knotweed (Polygonum tinctorium Ait.), and weld (Reseda luteola L.)”, Journal of Sustainable Agriculture, Vol: 23(2), pp: 17-40.
  • 17. Mussak R. A. M. and Bechtold T., 2009, “Natural Colorants in Textile Dyeing”, In: Hand book of natural colorants, ed. T. Bechtold and R. Mussak, United Kingdom: John Wiley and Sons Ltd., pp.333 (ISBN: 978-0-470-51199-2).
  • 18. Cardon D., 2009, “Colours in Civilizations of the World and Natural Colorants: History under Tension”, In: Hand book of natural colorants, ed. T. Bechtold and R. Mussak, United Kingdom: John Wiley and Sons Ltd., pp.22 (ISBN: 978-0-470-51199-2).
  • 19. Zarkogianni M., Mikropoulou E., Varella E., Tsatsaroni E., 2010, “Colour and fastness of natural dyes: revival of traditional dyeing techniques”, Coloration Technology, Vol: 127(1), pp: 18–27.
  • 20. Rekaby M., Salem A.A., Nassar S.H., 2009, “Eco-friendly printing of natural fabrics using natural dyes from alkanet and rhubarb”, Journal of the Textile Institute, Vol: 100(6), pp: 486-495.
  • 21. Shultz S., 2005, “Oranges”, Journal of Agricultural & Food Information, Vol: 6(2-3), pp: 13-20.
  • 22. ISO 105-C10, 2006, “Textiles-Tests for Color Fastness, Part C10: Color Fastness to Washing with Soap or Soap and Soda, Test Condition: Test A (1)”, International Organization for Standardization, Geneva, Switzerland.
  • 23. ISO 105-B02, 1994, “Textiles-Tests for Color Fastness, Part B02: Color Fastness to Artificial Light”, International Organization for Standardization, Brussels, Belgium.
  • 24. ISO 105-X12, 1993, “Textiles-Tests for Color Fastness, Part X12: Color Fastness to Rubbing”, International Organization for Standardization, Geneva, Switzerland.
  • 25. ISO 105-E04, 1994, “Textiles-Tests for Color Fastness, Part E04: Color Fastness to Perspiration”, International Organization for Standardization, Brussels, Belgium.
  • 26. ISO 105-D01, 2010, “Textiles-Tests for Color Fastness, Part D01: Color Fastness to Dry-cleaning using Perchloroethylene Solvent”, International Organization for Standardization, Geneva, Switzerland.
  • 27. DIN 53160-1, 2010, “Determination of the colour fastness of articles for common use, Part 1: Resistance to artificial saliva”, Deutsches Institut Fur Normung E.V, Berlin.
  • 28. Bhatti I.A., Adeel S., Rehman F., Irshad M., Abbas M., 2012, “Effect of mercerization and gamma irradiation on the dyeing behaviour of cotton using stilbene based direct dye”, Radiation Physics and Chemistry, Vol: 81, pp: 823–826.
  • 29. Smith K.J., 1997, “Colour Order Systems, Colour Spaces, Colour Difference and Colour Scales”, In: Colour Physics for Industry (2nd Edition), ed. R. McDonald, Bradford, England: Society of Dyers and Colourists (ISBN 0 901956 70 8).
  • 30. Koh J., 2011, “Dyeing with Disperse Dyes”, In: Textile Dyeing, ed. P. J. Hauser, Rijeka, Croatia:InTech, pp. 203 (ISBN 978-953-307-565-5).

PAMUKLU KUMAŞLARIN BASILMASI İÇİN FARKLI DOĞAL BOYARMADDE KAYNAKLARININ KULLANILMASI

Year 2017, Volume: 27 Issue: 3, 259 - 265, 30.09.2017

Abstract

Bu çalışmada pamuklu kumaşların doğal boyarmadde kaynakları ile basılması sağlanarak doğal ürünlere ve daha temiz üretime olan talebe cevap verilmesi amaçlanmıştır. Bu amaçla, ağartılmış, ağartılmış ve merserize edilmiş pamuklu kumaşlar, "nar kabuğu, fındık kabuğu, portakal ağacı yaprakları, havacıva bitkisinin kökü ve papatya" olmak üzere beş farklı doğal boya kaynağından elde edilen ekstraktlar kullanılarak pigment baskı yöntemi ile renklendirilmiştir. Bu sayede, pamuğun doğal boyarmadde kaynakları ile renklendirilebileceğinin gösterilmesi planlanmıştır. Çevre dostu üretim için, mordan maddesi kullanılmamış fakat yinede baskılı kumaşlardan yeterli haslık değerlerine sahip iyi renkler elde edilmiştir. Baskı işleminde boyarmaddenin bağlanması için mordan maddeleri yerine binder kullanılmıştır. Diğer boyama ve baskı işlemlerinde olduğu gibi, ön terbiye işlemlerinin pamuklu kumaşların doğal boyalar ile basılabilirliğine etkisinin olduğu tespit edilmiştir. Genel olarak merserizasyon işlemi ile yüksek renk verimlilikleri, daha koyu renk tonları ve aynı zamanda ışık haslıklarında artış, ve yıkama ve ter haslıklarında düşüş elde edilmiştir.

References

  • 1. Cook J.G., 1993, “Handbook of Textile Fibres: I. Natural Fibres”, 5th ed. repr., Durham England: Merrow Publishing Co. Ltd., pp.73.
  • 2. Tavčer P.F., 2011, “Dyeing of environmentally friendly pretreated cotton fabric”, In: Textile Dyeing, ed. P. J. Hauser, Rijeka, Croatia: InTech. pp. 77.
  • 3. Wakelyn P. J., Bertoniere N. R., French A. D., Thibodeaux D. P., Triplett B. A., Rousselle M. A., Goynes W. R., Edwards J.V., Hunter L., McAlister D. D. and Gamble G. R., 2007, “Cotton Fibers”, In: Handbook of Fiber Chemistry, (3rd ed.), ed. M. Lewin, Boca Raton USA: CRC Press, Taylor & Francis Group, pp. 620.
  • 4. Moore S.B., Ausley L.W., 2004, “Systems thinking and green chemistry in the textile industry: concepts, technologies and benefits”, Journal of Cleaner Production, Vol:12(6), pp: 585-601.
  • 5. Samanta A. K. and Konar A., 2011, “Dyeing of Textiles with Natural Dyes”, In: Natural dyes, ed. E. P. Akçakoca Kumbasar, Croatia: InTech, pp. 29-56 (ISBN 978-953-307-783-3).
  • 6. Bahtiyari M.İ., Benli H., Yavaş A., 2013, “Printing of wool and cotton fabrics with natural dyes”, Asian Journal of Chemistry, Vol:25(6), pp:3220-3224.
  • 7. El-Molla M.M., Schneider R., 2006, “Development of ecofriendly binders for pigment printing of all types of textile fabrics”, Dyes and Pigments, Vol: 71(2), pp: 130-137.
  • 8. Özgüney A. T., Seçim P., Demir A., Gülümser T., Özdoğan E., 2015, “Ecological Printing of Madder Over Various Natural Fibres”, Tekstil Ve Konfeksiyon, Vol:25(2), pp:166-171.
  • 9. Agarwal R., Pruthi N., Singh S. J. S., 2007, “Effect of mordants on printing with Marigold flowers dye”,. Natural Product Radiance, Vol: 6(4), pp:306–309.
  • 10. El-Hennawi H.M., Ahmed K.A., Abd El-Thalouth I., 2012, “A novel bio-technique using laccase enzyme in textile printing to fix natural dyes”, Indian Journal of Fibre & Textile Research, Vol:37(3), pp:245-249.
  • 11. Ajmal M., Adeel S., Azeema M., Zuber M., Akhtar N., Iqbal N., 2014, “Modulation of pomegranate peel colourant characteristics for textile dyeing using high energy radiations”, Industrial Crops and Products, Vol:58, pp: 188–193.
  • 12. Kulkarni S.S., Gokhale A.V., Bodake U.M., Pathade G.R., 2011, “Cotton dyeing with natural dye extracted from pomegranate (Punica granatum) peel”, Universal Journal of Environmental Research and Technology, Vol: 1(2), pp: 135-139.
  • 13. Adeel S., Ali S., Bhatti I.A., Zsila F., 2009, “Dyeing of cotton fabric using pomegranate (Punica granatum) aqueous extract”, Asian Journal of Chemistry, Vol: 21(5), pp: 3493-3499.
  • 14. Güneş E., Atav R., 2017, “The use of nutshell firstly as a natural dye for cotton and wool and then as a natural adsorbent for colour removal of basic dye effluent”, Coloration Technology, Vol 133(1), pp: 88-93.
  • 15. Ferreira E.S.B., Hulme A.N., McNab H., Quye A., 2004, “The natural constituents of historical textile dyes”, Chemical Society Reviews, Vol: 33, pp: 329- 336.
  • 16. Hartl A., Vogl C.R., 2003, “The potential use of organically grown dye plants in the organic textile industry: Experiences and results on cultivation and yields of Dyer’s Chamomile (Anthemis tinctoria L.), Dyer’s Knotweed (Polygonum tinctorium Ait.), and weld (Reseda luteola L.)”, Journal of Sustainable Agriculture, Vol: 23(2), pp: 17-40.
  • 17. Mussak R. A. M. and Bechtold T., 2009, “Natural Colorants in Textile Dyeing”, In: Hand book of natural colorants, ed. T. Bechtold and R. Mussak, United Kingdom: John Wiley and Sons Ltd., pp.333 (ISBN: 978-0-470-51199-2).
  • 18. Cardon D., 2009, “Colours in Civilizations of the World and Natural Colorants: History under Tension”, In: Hand book of natural colorants, ed. T. Bechtold and R. Mussak, United Kingdom: John Wiley and Sons Ltd., pp.22 (ISBN: 978-0-470-51199-2).
  • 19. Zarkogianni M., Mikropoulou E., Varella E., Tsatsaroni E., 2010, “Colour and fastness of natural dyes: revival of traditional dyeing techniques”, Coloration Technology, Vol: 127(1), pp: 18–27.
  • 20. Rekaby M., Salem A.A., Nassar S.H., 2009, “Eco-friendly printing of natural fabrics using natural dyes from alkanet and rhubarb”, Journal of the Textile Institute, Vol: 100(6), pp: 486-495.
  • 21. Shultz S., 2005, “Oranges”, Journal of Agricultural & Food Information, Vol: 6(2-3), pp: 13-20.
  • 22. ISO 105-C10, 2006, “Textiles-Tests for Color Fastness, Part C10: Color Fastness to Washing with Soap or Soap and Soda, Test Condition: Test A (1)”, International Organization for Standardization, Geneva, Switzerland.
  • 23. ISO 105-B02, 1994, “Textiles-Tests for Color Fastness, Part B02: Color Fastness to Artificial Light”, International Organization for Standardization, Brussels, Belgium.
  • 24. ISO 105-X12, 1993, “Textiles-Tests for Color Fastness, Part X12: Color Fastness to Rubbing”, International Organization for Standardization, Geneva, Switzerland.
  • 25. ISO 105-E04, 1994, “Textiles-Tests for Color Fastness, Part E04: Color Fastness to Perspiration”, International Organization for Standardization, Brussels, Belgium.
  • 26. ISO 105-D01, 2010, “Textiles-Tests for Color Fastness, Part D01: Color Fastness to Dry-cleaning using Perchloroethylene Solvent”, International Organization for Standardization, Geneva, Switzerland.
  • 27. DIN 53160-1, 2010, “Determination of the colour fastness of articles for common use, Part 1: Resistance to artificial saliva”, Deutsches Institut Fur Normung E.V, Berlin.
  • 28. Bhatti I.A., Adeel S., Rehman F., Irshad M., Abbas M., 2012, “Effect of mercerization and gamma irradiation on the dyeing behaviour of cotton using stilbene based direct dye”, Radiation Physics and Chemistry, Vol: 81, pp: 823–826.
  • 29. Smith K.J., 1997, “Colour Order Systems, Colour Spaces, Colour Difference and Colour Scales”, In: Colour Physics for Industry (2nd Edition), ed. R. McDonald, Bradford, England: Society of Dyers and Colourists (ISBN 0 901956 70 8).
  • 30. Koh J., 2011, “Dyeing with Disperse Dyes”, In: Textile Dyeing, ed. P. J. Hauser, Rijeka, Croatia:InTech, pp. 203 (ISBN 978-953-307-565-5).
There are 30 citations in total.

Details

Journal Section Articles
Authors

M. İbrahim Bahtiyari This is me

Hüseyin Benli

Arzu Yavaş This is me

Candan Akça This is me

Publication Date September 30, 2017
Submission Date October 2, 2017
Acceptance Date May 10, 2017
Published in Issue Year 2017 Volume: 27 Issue: 3

Cite

APA Bahtiyari, M. İ., Benli, H., Yavaş, A., Akça, C. (2017). USE OF DIFFERENT NATURAL DYE SOURCES FOR PRINTING OF COTTON FABRICS. Textile and Apparel, 27(3), 259-265.

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