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Investigation of The Dyeability Behavior of Banana Fibers With Natural Dye Extract Obtained From Turmeric Plants

Year 2015, Volume: 27 - Special Issue I: Future Technical Textiles, 40 - 44, 09.07.2015
https://doi.org/10.7240/mufbed.83023

Abstract

In this study, the fibers produced from the banana plants provided from Antalya region were treated with a variety of mordants, and then the fibers were dyed with the natural dye extracted from turmeric plant (Curcuma longa) via ultrasonic and conventional method. Finally, the dye uptake and fastness properties of samples were investigated. The recent studies have demonstrated that the synthetic dyes can be non-biodegradable, allergenic, cytotoxic and partially carcinogenic. Recently demand for eco-friendly, non-carcinogenic and non-toxic products have been gradually increased. Compared to the synthetic dyes, the natural dyes are advantageous in the way of been biodegradable and non-toxic and not causing health problems, produced under temperate conditions. These properties of natural dyes lately result in increasing their usage. Today utilization of many plant extracts as natural dyes has been investigated such as turmeric plant. 

References

  • Cristea, D., Vilarem, G., Improving lightfastness of natural dyes on cotton yarn, Dyes and Pigments 70, 238-245, (2006).
  • Deo, H.T., Desai, B.K., Dyeing of cotton and jute with tea as a natural dye, Coloration Technology, 115, 7-8, 224–227,(1999).
  • Hunger K., “Industrial Dyes”, Wiley-VCH, Weinheim, (2003).
  • Bechtold, T., A.M., Amalid, Mussak, R, ‘Natural dyes for textile dyeing: A comparison of methods to assess the quality of Canadian golden rod plant material’, Dyes and Pigments, 75, 287-293, (2007).
  • Nagia, F.A., EL-Mohamedy, R.S.R. , ‘Dyeing of wool with natural anthraquinone dyes from Fusarium oxysporum’, Dyes and Pigments 75, 550-555, (2007).
  • Sinha,K., Saha, P.D., Datta, S., Extraction of natural dye from petals of Flame of forest (Butea monosperma) flower: Process optimization using response surface methodology (RSM), Dyes and Pigments 94, 212-216, (2012).
  • Slokar, Y. M. , Marechal, A.M.L., Methods of Decoloration of Textile Waste waters, Dyes and Pigments, Vol. 37, No. 4, pp. 335-356, (1998).
  • Bhatti, I.A., Adeel, S., Jamal, M.A., Safdar, M., Abbas, M., Influence of gamma radiation on the colour strength and fastness properties of fabric using turmeric (Curcuma longa L.) as naturaldye, Radiation Physicsand Chemistry 79, 622–625, (2010).
  • Bechtold, T., Turcanu, A., Ganglberger, E., Geissler, S., Natural dyes in modern textile dye houses — how to combine experiences of two centuries to meet the demands of the future, Journal of Cleaner Production 11, 499–509, (2003).
  • Baliarsingh, S., Panda, A.K., Jena, J., Das, T., Das, N.B., Exploring sustainable technique on natural dye extraction from native plants for textile: identification of colourants, colourimetricanalysis of dyed yarns and their antimicrobial evaluation, Journal of Cleaner Production 37, 257-264, (2012).
  • Blasco, M., García-Pérez, J.V., Bon, J., Carreres, J.E., Mulet, A., ,Effect of Blanching and Air Flow Rate on Turmeric Drying’, Food Sci. Tech. Int., 12(4):315– 323, (2006).
  • Araşjo, C.A.C., Leon, L.L., Biological Activities of Curcuma longa L., Mem. Inst. Oswaldo Cruz, 96(5): 723-728, (2001).
  • Sivakumar, V., Anna, J.L., Vijayeeswarri, J., Swaminathan, G., Ultrasound assisted enhancement in natural dye extraction from beetroot for industrial applications and natural dyeing of leather, Ultrasonics Sonochemistry 16, 782–789, (2009).
  • Gogate, P.R., Cavitational reactors for process intensification of chemical processing applications: A criticalreview, Chemical Engineering and Processing: Process Intensification, 47 (4), 515-527, (2008).
  • Akalin, M., Merdan, N., Kocak, D., Usta, I., Effects of ultrasonic energy on the wash fastness of reactive dyes, Ultrasonics,42, 1–9, (2004).
  • Khatri, Z., Memonb, M.H., Khatri, A., Tanwari, A., Cold Pad-Batch dyeing method for cotton fabric dyeing with reactive dyes using ultrasonic energy, Ultrasonics Sonochemistry 18, 1301–1307, (2011).
  • A. Guesmi, N. Ladhari, F. Sakli, ‘Ultrasonic preparation of cationic cotton and its application in ultrasonic natural dyeing’, Ultrasonics Sonochemistry 20, 571– 579, (2013).
  • Kamel, M.M., Helmy, H.M., Mashaly, H.M., Kafafy, H.H., Ultrasonic assisted dyeing: Dyeing of acrylic fabrics C.I. Astrazon Basic Red 5BL 200%, Ultrasonics Sonochemistry 17, 92–97, (2010).
  • Kamel, M.M., El Zawahry, M.M., Ahmed, N.S.E., Abdelghaffar, F., Ultrasonic dyeing of cationized cotton fabric with natural dye Part 1: Cationization of cotton using Solfix E, Ultrasonics Sonochemistry 16, 243–249, (2009).
  • Vankar, P.S., Shanker, R., Srivastava, J., Ultrasonic dyeing of cotton fabric with aqueous extract of Eclipta alba, Dyes and Pigments 72, 33-37, (2007).
  • Ferrero, F., Periolatto, M., Ultrasound for low temperature dyeing of wool with acid dye, Ultrasonics Sonochemistry 19, 601–606, (2012).
  • Fairchild, M.D., Color Appearance Models, ISBN 0-201-63464-3, (1997). Inc.,
  • ISO 105-C06 Standard
  • TS 1008 EN ISO 105 – B02 Standard.

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Year 2015, Volume: 27 - Special Issue I: Future Technical Textiles, 40 - 44, 09.07.2015
https://doi.org/10.7240/mufbed.83023

Abstract

-

References

  • Cristea, D., Vilarem, G., Improving lightfastness of natural dyes on cotton yarn, Dyes and Pigments 70, 238-245, (2006).
  • Deo, H.T., Desai, B.K., Dyeing of cotton and jute with tea as a natural dye, Coloration Technology, 115, 7-8, 224–227,(1999).
  • Hunger K., “Industrial Dyes”, Wiley-VCH, Weinheim, (2003).
  • Bechtold, T., A.M., Amalid, Mussak, R, ‘Natural dyes for textile dyeing: A comparison of methods to assess the quality of Canadian golden rod plant material’, Dyes and Pigments, 75, 287-293, (2007).
  • Nagia, F.A., EL-Mohamedy, R.S.R. , ‘Dyeing of wool with natural anthraquinone dyes from Fusarium oxysporum’, Dyes and Pigments 75, 550-555, (2007).
  • Sinha,K., Saha, P.D., Datta, S., Extraction of natural dye from petals of Flame of forest (Butea monosperma) flower: Process optimization using response surface methodology (RSM), Dyes and Pigments 94, 212-216, (2012).
  • Slokar, Y. M. , Marechal, A.M.L., Methods of Decoloration of Textile Waste waters, Dyes and Pigments, Vol. 37, No. 4, pp. 335-356, (1998).
  • Bhatti, I.A., Adeel, S., Jamal, M.A., Safdar, M., Abbas, M., Influence of gamma radiation on the colour strength and fastness properties of fabric using turmeric (Curcuma longa L.) as naturaldye, Radiation Physicsand Chemistry 79, 622–625, (2010).
  • Bechtold, T., Turcanu, A., Ganglberger, E., Geissler, S., Natural dyes in modern textile dye houses — how to combine experiences of two centuries to meet the demands of the future, Journal of Cleaner Production 11, 499–509, (2003).
  • Baliarsingh, S., Panda, A.K., Jena, J., Das, T., Das, N.B., Exploring sustainable technique on natural dye extraction from native plants for textile: identification of colourants, colourimetricanalysis of dyed yarns and their antimicrobial evaluation, Journal of Cleaner Production 37, 257-264, (2012).
  • Blasco, M., García-Pérez, J.V., Bon, J., Carreres, J.E., Mulet, A., ,Effect of Blanching and Air Flow Rate on Turmeric Drying’, Food Sci. Tech. Int., 12(4):315– 323, (2006).
  • Araşjo, C.A.C., Leon, L.L., Biological Activities of Curcuma longa L., Mem. Inst. Oswaldo Cruz, 96(5): 723-728, (2001).
  • Sivakumar, V., Anna, J.L., Vijayeeswarri, J., Swaminathan, G., Ultrasound assisted enhancement in natural dye extraction from beetroot for industrial applications and natural dyeing of leather, Ultrasonics Sonochemistry 16, 782–789, (2009).
  • Gogate, P.R., Cavitational reactors for process intensification of chemical processing applications: A criticalreview, Chemical Engineering and Processing: Process Intensification, 47 (4), 515-527, (2008).
  • Akalin, M., Merdan, N., Kocak, D., Usta, I., Effects of ultrasonic energy on the wash fastness of reactive dyes, Ultrasonics,42, 1–9, (2004).
  • Khatri, Z., Memonb, M.H., Khatri, A., Tanwari, A., Cold Pad-Batch dyeing method for cotton fabric dyeing with reactive dyes using ultrasonic energy, Ultrasonics Sonochemistry 18, 1301–1307, (2011).
  • A. Guesmi, N. Ladhari, F. Sakli, ‘Ultrasonic preparation of cationic cotton and its application in ultrasonic natural dyeing’, Ultrasonics Sonochemistry 20, 571– 579, (2013).
  • Kamel, M.M., Helmy, H.M., Mashaly, H.M., Kafafy, H.H., Ultrasonic assisted dyeing: Dyeing of acrylic fabrics C.I. Astrazon Basic Red 5BL 200%, Ultrasonics Sonochemistry 17, 92–97, (2010).
  • Kamel, M.M., El Zawahry, M.M., Ahmed, N.S.E., Abdelghaffar, F., Ultrasonic dyeing of cationized cotton fabric with natural dye Part 1: Cationization of cotton using Solfix E, Ultrasonics Sonochemistry 16, 243–249, (2009).
  • Vankar, P.S., Shanker, R., Srivastava, J., Ultrasonic dyeing of cotton fabric with aqueous extract of Eclipta alba, Dyes and Pigments 72, 33-37, (2007).
  • Ferrero, F., Periolatto, M., Ultrasound for low temperature dyeing of wool with acid dye, Ultrasonics Sonochemistry 19, 601–606, (2012).
  • Fairchild, M.D., Color Appearance Models, ISBN 0-201-63464-3, (1997). Inc.,
  • ISO 105-C06 Standard
  • TS 1008 EN ISO 105 – B02 Standard.
There are 24 citations in total.

Details

Primary Language EN
Journal Section Research Articles
Authors

Seyda Canpolat This is me

Nigar Merdan

Habip Dayıoğlu

Dilara Koçak

Publication Date July 9, 2015
Published in Issue Year 2015 Volume: 27 - Special Issue I: Future Technical Textiles

Cite

APA Canpolat, S., Merdan, N., Dayıoğlu, H., Koçak, D. (2015). -. Marmara Fen Bilimleri Dergisi, 27, 40-44. https://doi.org/10.7240/mufbed.83023
AMA Canpolat S, Merdan N, Dayıoğlu H, Koçak D. -. MFBD. October 2015;27:40-44. doi:10.7240/mufbed.83023
Chicago Canpolat, Seyda, Nigar Merdan, Habip Dayıoğlu, and Dilara Koçak. “-”. Marmara Fen Bilimleri Dergisi 27, October (October 2015): 40-44. https://doi.org/10.7240/mufbed.83023.
EndNote Canpolat S, Merdan N, Dayıoğlu H, Koçak D (October 1, 2015) -. Marmara Fen Bilimleri Dergisi 27 40–44.
IEEE S. Canpolat, N. Merdan, H. Dayıoğlu, and D. Koçak, “-”, MFBD, vol. 27, pp. 40–44, 2015, doi: 10.7240/mufbed.83023.
ISNAD Canpolat, Seyda et al. “-”. Marmara Fen Bilimleri Dergisi 27 (October 2015), 40-44. https://doi.org/10.7240/mufbed.83023.
JAMA Canpolat S, Merdan N, Dayıoğlu H, Koçak D. -. MFBD. 2015;27:40–44.
MLA Canpolat, Seyda et al. “-”. Marmara Fen Bilimleri Dergisi, vol. 27, 2015, pp. 40-44, doi:10.7240/mufbed.83023.
Vancouver Canpolat S, Merdan N, Dayıoğlu H, Koçak D. -. MFBD. 2015;27:40-4.

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