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A Study on the Dyeing Characteristic of Wool Fabric with American Ivy (Parthenocissus Quinquefolia L.)

Yıl 2017, Cilt: 24 Sayı: 106, 54 - 61, 30.06.2017

Öz

American ivy (AS) is one of the most used garden ornamental plants today. It gives a visual feast of green leaves, purple fruits and reddish branches and gardens. In this study, the dyeing properties of American ivy were investigated on the woolen fabrics. Purple fruits, leaves and plant body of AS were used in the study. These parts were collected in the fall and separately dried, then milled and powdered and then used as a dye source in the dyeing of woolen fabrics pre-mordanted with KAl(SO4)2.12H2O, CuSO4.5H2O, FeSO4.7H2O, SnCl2.2H2O and K2Cr2O7 . After dyeing, CIE L* a* b* and K/S color values of woolen fabrics were examined and color investigate were determined. Also, various color fastness tests of dyed woolen fabrics have been made. At the end of the obtained data it was seen that AS plant could be a natural dyestuff which can dye wool based textile materials. 

Kaynakça

  • Desphande. S.D., (2001), Ecofriendly dyeing of synthetic fibres, Ind. J. Fibre Text. Res., 26, 136–142
  • Gupta, V.K., Mittal, A., Gajbe, V., Mittal, J., (2006), Removal and Recovery of the Hazardous Azo Dye Acid Orange 7 through Adsorption over Waste Materials: Bottom Ash and De-Oiled Soya, Ind. Eng. Chem. Res., 45, 1446-1453
  • Mittal, A., Mittal, J., Kurup, L., Singh, A.K., (2006), Process development for the removal and recovery of hazardous dye erythrosine from wastewater by waste materials-Bottom Ash and De-Oiled Soya as adsorbents, Journal of Hazardous Materials B138, 95-105
  • Aoudj, S., Khelifa, A., Drouichea, N., Hecini, M., Hamitouche, H., (2010), Electrocoagulation process applied to wastewater containing dyes from textile industry, Chemical Engineering and Processing 49, 1176-1182
  • Kant, Rita., (2012), Textile dyeing industry an environmental hazard, Natural Science, 4(1), 22-26
  • Bechtold, T., Turcanu, A., Ganglberger, E., Geissler, S., (2003), Natural dyes in modern textile dyehouses — how to combine experiences of two centuries to meet the demands of the future?, Journal of Cleaner Production, 11, 499–509
  • Bechtold, T., Mussak, R., Mahmud-Ali, A., Ganglberger, E., Geissler, S., (2006), Extraction of natural dyes for textile dyeing from coloured plant wastes released from the food and beverage industry, Journal of the Science of Food and Agriculture, 6, 233–242
  • Bechtold, T., Mahmud-Ali, A., (2007), Reuse of ash-tree (Fraxinus excelsior L.) bark as natural dyes for textile dyeing: process conditions and process stability, Coloration Technology, 123, 271–279
  • Das, D., (2006), Dyeing of wool and silk with punica granatum, Indian journal of Fibre and Textile Research, 31, 559-564.
  • Adeel, S., Ali, S., Bhatti, I.A., Zsila, F., (2009), Dyeing of Cotton Fabric using Pomegranate (Punica granatum) Aqueous Extract, Asian Journal of Chemistry, 21(5), 3493-3499
  • 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 & Technology, 1(2), 135-139
  • Ramasamy, R., Balakumar, C., Kalaivani, J., Sivakumar, R., (2011), Dyeability and Antimicrobial Properties of Cotton Fabrics Finished with Punica Granatum Extracts, Journal of Textile & Apparel Technology & Management (JTATM), 7(2), 1-12
  • Davulcu, A., Benli, H., Şen, Y., Bahtiyari, M.I., (2014), Dyeing Of Cotton with Thyme and Pomegranate Peel, Cellulose, 21, 4671-4680
  • Benli, H., Bahtiyari, M.I., (2015a), Combination of Ozone and Ultrasound in Pretreatment of Cotton Fabrics Prior to Natural Dyeing, Journal of Cleaner Production, 89, 116-124
  • Tutak, M., Benli, H., (2012), Dyeing properties of textiles by Turkish hazelnut (Corylus colurna): leaves, coat, shell and dice, Coloration Technology, 128(6), 454-458
  • Benli, H., Bahtiyari, M.I., (2016), Pamuklu Kumaşların Ozon-Hidrojen Peroksit Kombinasyonu ile Ağartılması ve Doğal Boyalar ile Renklendirilmesi, Tekstil ve Mühendis, 23(103), 189-196.
  • Bahtiyari, M.I., Benli, H., Yavaş, A., Can, C., (2014), Use Of Vegetative Wastes In Coloration Of Wool Fabrics, 14th World Textile Conference, AUTEX 2014, Bursa, Turkey, pp.1-5, 26-28 May 2013
  • Benli, H., Bahtiyari, M.I., (2015b), Use of ultrasound in biopreparation and natural dyeing of cotton fabric in a single bath, Cellulose, 22, 867-877
  • Önal, A., (1996), Extraction of dyestuff from onion (Allium cepa L.) and its application in the dyeing of wool, feathered-leather and cotton, Turkish Journal of Chemistry, 20, 194-203
  • Lokhande, H.T., Dorugade, V.A., (1999), Dyeing Nylon with natural dyes, American Dyestuff repoter, 29-34
  • Deo, H.T., Paul, R., (2000), Dyeing of ecru denim with onion extract using natural mordant combinations, Indian journal of fibre and textile, 25, 152-157
  • Gümrükçü, G., Özgür, M.Ü., Gültekin, C., (2008), Extraction of Anthocyanin Pigments from Red Onion (Alliumcepa L.) and Dyeing Woolen Fabrics, Asian Journal of Chemistry, 20(4), 2891-2902
  • Vankar, P.S., Shanker, R., Wijayapala, S., (2009), Dyeing of cotton, wool and silk with extract of Allium cepa, Pigment & Resin Technology, 38(4), 242 – 247
  • Tera, F.M., Elnagar, K.E., Mohamed, S.M., (2012), Dyeability and Light-Fastness Properties of Onion‎ Scale Dye on Different Fabric Types for Conservation‎ Applications, Journal of Textile and Apparel, Technology and Management, 7(3), 1-6
  • Kadolph, S.J., (2005), Identification of plant residue with commercial potential as natural dyestuffs, Leopold Center Completed Grant Reports, Paper 243
  • Pawlak, K., Puchalska, M., Miszczak, A., Rosłoniec, E., Jarosz, M., (2006), Blue natural organic dyestuffs—from textile dyeing to mural painting. Separation and characterization of coloring matters present in elderberry, logwood and indigo, Journal of Mass Spectrometry, 41(5), 613–622
  • Guarrera, P.M., (2006), Household dyeing plants and traditional uses in some areas of Italy, Journal of Ethnobiology and Ethnomedicine, 2, 9
  • Cardon, D., (2007) Natural dyes. Sources, tradition technology and science, Archetype Pub.
  • USDA NRCS PLANTS, http://plants.usda.gov/plantguide/pdf/pg_paqu2.pdf, Ekim, 2016
  • Karadağ, R., (2007), Doğal Boyamacılık, T.C. Kültür ve Turizm Bakanlığı, Dösim, Ankara
  • Samanta, A.K., Agarwal, P., (2009), Application of natural dyes on textiles, Indian Journal of Fibers & Textile Research, 34(4), 384 -399
  • Samanta, A.K., Konar, A., (2011), Dyeing of Textiles with Natural Dyes, in Akçakoca Kumbasar, E. P. (Eds.), Natural dyes, InTech, Croatia
  • McDonald R., (1997), Recipe prediction for textiles, in McDonald R., (Eds.) Colour physics for industry (2nd Edition), Society of Dyers and Colourists, Bradford, England (ISBN 0 901956 70 8).
  • ISO 105-B02:1994, Textiles–Tests for color fastness, Part B02: Color fastness to artificial light, International Organization for Standardization, Brussels, Belgium
  • 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
  • ISO 105-X12:1993, Textiles–Tests for color fastness, Part X12: Color fastness to rubbing, International Organization for Standardization, Geneva, Switzerland
  • Smith, K.J., (1997), Colour order systems, colour spaces, colour difference and colour scales, in McDonald, R. (2nd Ed.), Colour physics for industry, Society of Dyers and Colourists, Bradford, England (ISBN 0 901956 70 8).
  • Burkinshaw, S.M., Kumar, N., (2009), The mordant dyeing of wool using tannic acid and FeSO4, Part 1: Initial findings, Dyes and Pigments, 80(1), 53–60
  • Padfield, T., Landi, S., (1966), The light-fastness of the natural dyes, Studies in Conservation, 11(4), 181-196
  • Aydın, H.A., Güzel, F., Tez, G., (1996), Investigation of Adsorption Isotherms Used For Wool Dyeing by Aqueous Extraction of Cehri Fruit (Fructus Rhamni Petiolari) and Dyeing of Wool and Silk Accompanied by Various Mordants, Turkish Journal of Chemistry, 20, 283-288

Amerikan Sarmaşığı (Parthenocissus Quinquefolia L.) Bitkisinin Yünü Boyama Özelliklerinin Araştırılması

Yıl 2017, Cilt: 24 Sayı: 106, 54 - 61, 30.06.2017

Öz

Amerikan sarmaşığı (AS) günümüzde en çok kullanılan bahçe süs bitkilerinden biridir. Yeşil yaprakları, mor meyveleri ve kızıl dalları ile bahçelere görsel bir şölen verir. Bu çalışma AS’nın tekstil materyallerinden biri olan yünlü kumaşları boyayabilme özellikleri üzerine yapılmıştır. Çalışmada AS’nin mor meyveleri, yaprakları ve bitki gövdesi kullanılmıştır. Bu kısımlar sonbaharda toplanıp ayrı ayrı kurutulduktan sonra, öğütülüp toz haline getirilmiş ve sonra KAl(SO4)2.12H2O, CuSO4.5H2O, FeSO4.7H2O, SnCl2.2H2O ve K2Cr2O7 ile önceden mordanlanmış yünlü kumaşların boyanmasında boyarmadde kaynağı olarak kullanılmıştır. Boyama işlemlerinden sonra yünlü kumaşların CIE L* a* b* ve K/S renk değerleri incelenerek renk verimleri tespit edilmiştir. Ayrıca, boyanmış yünlü kumaşların çeşitli renk haslık testleri de yapılmıştır. Elde edilen veriler sonunda AS bitkisinin yünlü tekstil materyallerini boyayabilen bir doğal boyarmadde kaynağı olabileceği görülmüştür. 

Kaynakça

  • Desphande. S.D., (2001), Ecofriendly dyeing of synthetic fibres, Ind. J. Fibre Text. Res., 26, 136–142
  • Gupta, V.K., Mittal, A., Gajbe, V., Mittal, J., (2006), Removal and Recovery of the Hazardous Azo Dye Acid Orange 7 through Adsorption over Waste Materials: Bottom Ash and De-Oiled Soya, Ind. Eng. Chem. Res., 45, 1446-1453
  • Mittal, A., Mittal, J., Kurup, L., Singh, A.K., (2006), Process development for the removal and recovery of hazardous dye erythrosine from wastewater by waste materials-Bottom Ash and De-Oiled Soya as adsorbents, Journal of Hazardous Materials B138, 95-105
  • Aoudj, S., Khelifa, A., Drouichea, N., Hecini, M., Hamitouche, H., (2010), Electrocoagulation process applied to wastewater containing dyes from textile industry, Chemical Engineering and Processing 49, 1176-1182
  • Kant, Rita., (2012), Textile dyeing industry an environmental hazard, Natural Science, 4(1), 22-26
  • Bechtold, T., Turcanu, A., Ganglberger, E., Geissler, S., (2003), Natural dyes in modern textile dyehouses — how to combine experiences of two centuries to meet the demands of the future?, Journal of Cleaner Production, 11, 499–509
  • Bechtold, T., Mussak, R., Mahmud-Ali, A., Ganglberger, E., Geissler, S., (2006), Extraction of natural dyes for textile dyeing from coloured plant wastes released from the food and beverage industry, Journal of the Science of Food and Agriculture, 6, 233–242
  • Bechtold, T., Mahmud-Ali, A., (2007), Reuse of ash-tree (Fraxinus excelsior L.) bark as natural dyes for textile dyeing: process conditions and process stability, Coloration Technology, 123, 271–279
  • Das, D., (2006), Dyeing of wool and silk with punica granatum, Indian journal of Fibre and Textile Research, 31, 559-564.
  • Adeel, S., Ali, S., Bhatti, I.A., Zsila, F., (2009), Dyeing of Cotton Fabric using Pomegranate (Punica granatum) Aqueous Extract, Asian Journal of Chemistry, 21(5), 3493-3499
  • 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 & Technology, 1(2), 135-139
  • Ramasamy, R., Balakumar, C., Kalaivani, J., Sivakumar, R., (2011), Dyeability and Antimicrobial Properties of Cotton Fabrics Finished with Punica Granatum Extracts, Journal of Textile & Apparel Technology & Management (JTATM), 7(2), 1-12
  • Davulcu, A., Benli, H., Şen, Y., Bahtiyari, M.I., (2014), Dyeing Of Cotton with Thyme and Pomegranate Peel, Cellulose, 21, 4671-4680
  • Benli, H., Bahtiyari, M.I., (2015a), Combination of Ozone and Ultrasound in Pretreatment of Cotton Fabrics Prior to Natural Dyeing, Journal of Cleaner Production, 89, 116-124
  • Tutak, M., Benli, H., (2012), Dyeing properties of textiles by Turkish hazelnut (Corylus colurna): leaves, coat, shell and dice, Coloration Technology, 128(6), 454-458
  • Benli, H., Bahtiyari, M.I., (2016), Pamuklu Kumaşların Ozon-Hidrojen Peroksit Kombinasyonu ile Ağartılması ve Doğal Boyalar ile Renklendirilmesi, Tekstil ve Mühendis, 23(103), 189-196.
  • Bahtiyari, M.I., Benli, H., Yavaş, A., Can, C., (2014), Use Of Vegetative Wastes In Coloration Of Wool Fabrics, 14th World Textile Conference, AUTEX 2014, Bursa, Turkey, pp.1-5, 26-28 May 2013
  • Benli, H., Bahtiyari, M.I., (2015b), Use of ultrasound in biopreparation and natural dyeing of cotton fabric in a single bath, Cellulose, 22, 867-877
  • Önal, A., (1996), Extraction of dyestuff from onion (Allium cepa L.) and its application in the dyeing of wool, feathered-leather and cotton, Turkish Journal of Chemistry, 20, 194-203
  • Lokhande, H.T., Dorugade, V.A., (1999), Dyeing Nylon with natural dyes, American Dyestuff repoter, 29-34
  • Deo, H.T., Paul, R., (2000), Dyeing of ecru denim with onion extract using natural mordant combinations, Indian journal of fibre and textile, 25, 152-157
  • Gümrükçü, G., Özgür, M.Ü., Gültekin, C., (2008), Extraction of Anthocyanin Pigments from Red Onion (Alliumcepa L.) and Dyeing Woolen Fabrics, Asian Journal of Chemistry, 20(4), 2891-2902
  • Vankar, P.S., Shanker, R., Wijayapala, S., (2009), Dyeing of cotton, wool and silk with extract of Allium cepa, Pigment & Resin Technology, 38(4), 242 – 247
  • Tera, F.M., Elnagar, K.E., Mohamed, S.M., (2012), Dyeability and Light-Fastness Properties of Onion‎ Scale Dye on Different Fabric Types for Conservation‎ Applications, Journal of Textile and Apparel, Technology and Management, 7(3), 1-6
  • Kadolph, S.J., (2005), Identification of plant residue with commercial potential as natural dyestuffs, Leopold Center Completed Grant Reports, Paper 243
  • Pawlak, K., Puchalska, M., Miszczak, A., Rosłoniec, E., Jarosz, M., (2006), Blue natural organic dyestuffs—from textile dyeing to mural painting. Separation and characterization of coloring matters present in elderberry, logwood and indigo, Journal of Mass Spectrometry, 41(5), 613–622
  • Guarrera, P.M., (2006), Household dyeing plants and traditional uses in some areas of Italy, Journal of Ethnobiology and Ethnomedicine, 2, 9
  • Cardon, D., (2007) Natural dyes. Sources, tradition technology and science, Archetype Pub.
  • USDA NRCS PLANTS, http://plants.usda.gov/plantguide/pdf/pg_paqu2.pdf, Ekim, 2016
  • Karadağ, R., (2007), Doğal Boyamacılık, T.C. Kültür ve Turizm Bakanlığı, Dösim, Ankara
  • Samanta, A.K., Agarwal, P., (2009), Application of natural dyes on textiles, Indian Journal of Fibers & Textile Research, 34(4), 384 -399
  • Samanta, A.K., Konar, A., (2011), Dyeing of Textiles with Natural Dyes, in Akçakoca Kumbasar, E. P. (Eds.), Natural dyes, InTech, Croatia
  • McDonald R., (1997), Recipe prediction for textiles, in McDonald R., (Eds.) Colour physics for industry (2nd Edition), Society of Dyers and Colourists, Bradford, England (ISBN 0 901956 70 8).
  • ISO 105-B02:1994, Textiles–Tests for color fastness, Part B02: Color fastness to artificial light, International Organization for Standardization, Brussels, Belgium
  • 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
  • ISO 105-X12:1993, Textiles–Tests for color fastness, Part X12: Color fastness to rubbing, International Organization for Standardization, Geneva, Switzerland
  • Smith, K.J., (1997), Colour order systems, colour spaces, colour difference and colour scales, in McDonald, R. (2nd Ed.), Colour physics for industry, Society of Dyers and Colourists, Bradford, England (ISBN 0 901956 70 8).
  • Burkinshaw, S.M., Kumar, N., (2009), The mordant dyeing of wool using tannic acid and FeSO4, Part 1: Initial findings, Dyes and Pigments, 80(1), 53–60
  • Padfield, T., Landi, S., (1966), The light-fastness of the natural dyes, Studies in Conservation, 11(4), 181-196
  • Aydın, H.A., Güzel, F., Tez, G., (1996), Investigation of Adsorption Isotherms Used For Wool Dyeing by Aqueous Extraction of Cehri Fruit (Fructus Rhamni Petiolari) and Dyeing of Wool and Silk Accompanied by Various Mordants, Turkish Journal of Chemistry, 20, 283-288
Toplam 40 adet kaynakça vardır.

Ayrıntılar

Konular Mühendislik
Bölüm Makaleler
Yazarlar

Hüseyin Benli

Yayımlanma Tarihi 30 Haziran 2017
Yayımlandığı Sayı Yıl 2017 Cilt: 24 Sayı: 106

Kaynak Göster

APA Benli, H. (2017). Amerikan Sarmaşığı (Parthenocissus Quinquefolia L.) Bitkisinin Yünü Boyama Özelliklerinin Araştırılması. Tekstil Ve Mühendis, 24(106), 54-61.
AMA Benli H. Amerikan Sarmaşığı (Parthenocissus Quinquefolia L.) Bitkisinin Yünü Boyama Özelliklerinin Araştırılması. Tekstil ve Mühendis. Haziran 2017;24(106):54-61.
Chicago Benli, Hüseyin. “Amerikan Sarmaşığı (Parthenocissus Quinquefolia L.) Bitkisinin Yünü Boyama Özelliklerinin Araştırılması”. Tekstil Ve Mühendis 24, sy. 106 (Haziran 2017): 54-61.
EndNote Benli H (01 Haziran 2017) Amerikan Sarmaşığı (Parthenocissus Quinquefolia L.) Bitkisinin Yünü Boyama Özelliklerinin Araştırılması. Tekstil ve Mühendis 24 106 54–61.
IEEE H. Benli, “Amerikan Sarmaşığı (Parthenocissus Quinquefolia L.) Bitkisinin Yünü Boyama Özelliklerinin Araştırılması”, Tekstil ve Mühendis, c. 24, sy. 106, ss. 54–61, 2017.
ISNAD Benli, Hüseyin. “Amerikan Sarmaşığı (Parthenocissus Quinquefolia L.) Bitkisinin Yünü Boyama Özelliklerinin Araştırılması”. Tekstil ve Mühendis 24/106 (Haziran 2017), 54-61.
JAMA Benli H. Amerikan Sarmaşığı (Parthenocissus Quinquefolia L.) Bitkisinin Yünü Boyama Özelliklerinin Araştırılması. Tekstil ve Mühendis. 2017;24:54–61.
MLA Benli, Hüseyin. “Amerikan Sarmaşığı (Parthenocissus Quinquefolia L.) Bitkisinin Yünü Boyama Özelliklerinin Araştırılması”. Tekstil Ve Mühendis, c. 24, sy. 106, 2017, ss. 54-61.
Vancouver Benli H. Amerikan Sarmaşığı (Parthenocissus Quinquefolia L.) Bitkisinin Yünü Boyama Özelliklerinin Araştırılması. Tekstil ve Mühendis. 2017;24(106):54-61.