Çevre Dostu Tekstil Üretimi için Yeni bir Boyama Yöntemi olarak Üçlü Boya Kombinasyonu ile Boyanmış Yün İpliklerinin Renk ve Haslık Özelliklerinin Araştırılması

Yıl 2022, , 1077 - 1086, 30.12.2022

Menderes Koyuncu

https://doi.org/10.21605/cukurovaumfd.1230948

Öz

Son zamanlarda artan çevre sorunları nedeniyle tekstil boyama ve baskıda doğal renklendiricilerin kullanımı tekstil ürünleri imalatında ön plana çıkmıştır. Bu çalışmada, yün iplikleri üçlü boya (Scutellaria Orientalis L, Rubia Tinctorium L, and, Punica Granatum L) kombinasyonları ile boyama işlemi yapılmıştır. Boyanmış ipliklerin, yıkama ve ışık haslıkları yapılarak orta - iyi ve iyi değerlerde olduğu görülmüştür. CIELAB (L*, a*, and b*) renk koordinatları, and K/S, ve ∆E* değerleri incelenmiştir. Ayrıca FTIR ve SEM analizleri yapılarak boyamadan sonra değişimler incelenmiştir. Sonuçlardan, üçlü boya kombinasyonlu bitkilerden ekstrakte edilen doğal boyanın, yün iplikleri için iyi bir potansiyele sahip olduğu ve daha fazla yararlanılabileceği söylenebilir.

Anahtar Kelimeler

Doğal boyama, Yün ipliği, Renk bileşimi, Haslık, FTIR, SEM

Investigation of Color, and Fastness Properties of Wool Yarn Dyed with Ternary Plant Combination: A New Dyeing Method for the Production of Eco-Friendly Textiles

Öz

Lately, the utilization of natural colorants in textile dyeing and printing has come to the forepart of the manufacturing of textile goods due to increased environmental troubles. In this study, wool yarns were dyed with ternary dye combinations (Scutellaria Orientalis L, Rubia Tinctorium L, and, Punica Granatum L ). The color coordinates and washing and light fastness were investigated. Washing fastness and light fastness are fair to good. Dyed wool yarns were worked calorimetrically and their color coordinates CIELAB (L*, a*, and b*) and color strength (K/S), and ∆E* values were given. Fourier transform Infrared Spectrophotometer (FTIR), and Scanning Electron Microscopy (SEM) morphological studies have also been carrid out on dyed and undyed yarns. From the results, it could be said that the natural dye extracted from ternary dye combinations plants has good potential in wool yarns dyeing and can be exploited further.

Anahtar Kelimeler

Natural dyeing, Wool yarn, Coloring compound, Fastness, FTIR, SEM

Kaynakça

• ⦁ Ozgokce, F., Yılmaz, I., 2003. Dye Plants of East Anatolia Regin (Turkey), Economic Botany, 57(4), 454-460.
• ⦁ Nitave, S.A., Patil, V.A., 2014. Study of Antibacterial and Antifungal Activity of Punica Granatum Peel and its Phytochemical Screening. Word Journal of Pharmaceutical Research, 3(10), 505-512.
• ⦁ Gharari, Z., K., Bagheri, H., Danafar, K., Sharafi, A., 2020. Simultaneous Determination of Baicalein, Chrysin and Wogonin in Four Iranian Scutellaria Species by High Performance Liquid Chromatography. Journal of Applied Research on Medicinal and Aromatic Plants, 16, 1-7.
• ⦁ Bouagga, T., Harizi, T., Sakli, F., Zoccola, M., 2018. Correlation Between the Mechanical Behavior and Chemical, Physical and Thermal Characteristics of Wool: a Study on Tunisian Wool. Journal of Natural Fibres, 1-13, doi: 1080/15440478.2018.1461727.
• ⦁ Dusenbury, J.H., Wakelin, J.H., 1958. Effects of Crimp and Cross-Sectional Area on The Mechanical Properties of Wool Fiber. Textile Research Journal, 28:989–1004. doi: 10.1177/004051755802801203.
• ⦁ Pattinson, R., Wilcox, C., Williams, C., Curtis., S.K., 2015. Trends and Drivers for the Global and Australian Wool Industry, NSW Wool Industry and Future Opportunities. 1nd ed. 2015, Australia: NSW Department of Primary Industries.
• ⦁ Hamley, I.W., 2020. Introduction to Peptide Science. John Wiley Sons United States, 1-240.
• ⦁ Nawaza, N., Rehmana, A., Hussainb, M-H., Safdara, F., Iqbala, K., 2021. Dyeing of Wool with Dalbergia Sisso as an Eco-Friendly Substituent of Conventional Hazardous Synthetic Dye. Journal of Natural Fibres, 1-14.
• ⦁ Samata, A.K., Agarwal, P., 2009. Application of Natural Dyes on Textiles. Indian Journal of Fiber and Textile Research, 34, 384-399.
• ⦁ Tayade, P.B., Adivarekar, R.V., 2013. Dyeing of Cotton Fabric with Cuminum Cyminum L. as a Natural Dye and its Comparison with Synthetic Dye. The Journal of the Textile Institute, 104(10), 1080-1088. doi: 10.1080/ 00405000.2013.774944.
• ⦁ Shukla, S.R., Patil, S.M., 2000. Colour Matching on Wool Using Natural and Synthetic Dyes. Indian Journal of Fiber and Textile Research, 25(4), 303-308.
• ⦁ Anonymous, Dyeing Wool Fibres with Dyes Derived from Plants. 1991. Republic of Turkey, Industry and Trade Ministry, Ankara/Turkey
• ⦁ Güzel, E.T., Karadag, R., 2019. Sustainability of Organic Cotton Fabric Dyeing with A Natural Dye (Gallnut) and Analysis by Multi- Technique Approach. Journal of Natural Fibres, 1-12. Advance online publication. doi: 10.1080/15440478.2019.1687064
• ⦁ Mongkholrattanasit, R., Krystufek, J., Wiener, J., 2009. Dyeing of Wool and Silk by Eucalyptus Leaves Extraxt. Journal of Natural Fibres, 6(4), 319-330.
• ⦁ Ketema, A., Worku, A., 2020. Review on Intermolecular Forces between Dyes Used for Polyester Dyeing and Polyester Fiber. Hindawi Journal of Chemistry, 1-7
• ⦁ Rathera, L.J., Shabbirc, M., Mohammad, F., Li, Q., 2020. Terminalia arjuna Dyed Woolen Yarn - Effect of Binary and Ternary Metal Salt Combinations: A Greener Route for Production of Ecofriendly Textiles. Journal of Natural Fibres, 17(12), 1693-1705.
• ⦁ Punrattanasina, N., Nakpathom, M., Somboon, B., Narumol, N., Rungruangkitkrai, N., Mongkholrattanasit, N., 2013. Silk Fabric Dyeing with Natural Dye from Mangrove Bark (Rhizophora Apiculata Blume) Extract. Industrial Crops and Products, 49, 122-129.
• ⦁ Yusuf, M., Shahid, M., Khan, S.A., Khan, S., Islam, F. M., Khan, M. A., 2012. Eco-Dyeing of Wool Using Aqueous Extract of the Roots of Indian Madder (Rubia Cordifolia) as Natural Dye. Journal of Natural Fibres, 10, 14-28, doi: 10.1080/154404782012.738026.
• ⦁ Montazer, M., Parvinzadeh, M., 2004. Effect of Ammonia on Madder-Dyed Natural Protein Fiber. Journal of Applied Polymer science, 93(6), 2704-2710.
• ⦁ Razzaq, A., Kiran, S., Ahmad, T., Hassan, A., Ur rehman, H., 2021. A Comparative Study on Sustainable Dyeing of Silk and Wool with Acid Red 138 Dye. Journal Natural Fibres. 1-10.
• ⦁ Kumar Samata, A., Konar, A., Chakraborti, S., 2011. Dyeing of Jute Fabric with Tesu Extract: Part 1- Effects of Different Mordants and Dyeing Process Variables. Indian Journal of Fibres &Textile Reseach, 36, 63-73.
• ⦁ Yusuf, M., Mohammad, F., Shabbir, M., Khan, M.A., 2016. Eco-Dyeing of Wool with Rubia Cordifolia Root Extract: Assessment of the Effect of Acacia Catechu as Biomordant on Color and Fastness Properties. Textiles and Clothing Sustainability, 2-10
• ⦁ Adeel, S., Razzag, A., Kiran, S., Ahmad, T., Hassan, A., Urrahman, H., 2021. A Comparative Study on Sustainable Dyeing of Silk and Wool with Acid Red 138 Dye. Journal Natural Fibers, 1-10.
• ⦁ Boominathan, S., Karthi, V., Balakrishanan, S., 2020. Optimization of Process Parameters on Color Strength and Antimicrobial Activies of Cotton Fabric Dyed with Rubia Cordifolia Extract. Journal of Natural Fibres, 1-15.
• ⦁ Rehab, A.A., Manal, K., E.B., 2021. Improvement of the Dyeability and Salt-Free Dyeing for Wool Fabrics with Anionic Dyes by Pretreatment with Whey and Soybean Proteins. Journal of Natural Fibers, 1-18. doi: 10.1080/154404782021.2009394
• ⦁ Hassan, M.M., Carr, C.H., 2019. A Review of The Sustainable Methods in Imparting Shrink Resistance to Wool Fabrics. Journal of Advanced Research, 18, 39-60.