Research article
Vol 16 No 1 (2022): Volume 16, Number 1, 2022
Optimization of cotton fabrics dyeing process using various natural dye extracts
Departemen Teknik Kimia, Universitas Gadjah Mada. Jl Grafika No.2, Kampus UGM, Yogyakarta 55281, Indonesia
Indonesia Natural Dye Institute (INDI), Universitas Gadjah Mada. Jl Kaliurang Km.4 Sekip Utara, Yogyakarta 565223, Indonesia
Departemen Teknik Kimia, Universitas Gadjah Mada. Jl Grafika No.2, Kampus UGM, Yogyakarta 55281, Indonesia
Indonesia Natural Dye Institute (INDI), Universitas Gadjah Mada. Jl Kaliurang Km.4 Sekip Utara, Yogyakarta 565223, Indonesia
Abstract
Efforts to substitute synthetic dyes on fabrics for natural dyes are currently increasing. Research and innovation are extremely needed to support those attempts so that the quality of natural dyes is more competitive than synthetic dyes. This study aims to optimize the dyeing parameters of cotton fabrics using natural dye extracts derived from the barks of Tegeran (Cudrania javanensis), Merbau (Intsia bijuga), Tingi (Ceriops tagal), and Jambal (Peltophorum pterocarpum), as well as Jolawe (Terminalia bellirica) fruit peel. Varied dyeing parameters included dye concentration, dyeing time and temperature, and material to liquor ratio (MLR). The fixative solutions used were alum, lime, and iron (II) sulfate. The optimized parameters were based on the values of color depth and evenness, measured colorimetrically. Furthermore, the obtained results of the dyeing process under optimized conditions were analyzed for color quality by measuring color coordinates as well as the values of color strength (K/S), washing fastness, and light fastness. The results showed that the optimal dyeing conditions for all natural dye extracts used were the code A extract concentrations (0.0113 g/mL of Tegeran; 0.0115 g/mL of Merbau; 0.0204 g/mL of Jambal; and 0.0582 g/mL of Jolawe), dyeing at 28°C, dyeing time of 30 minutes, and the MLR of 1:30. The resulting color variations were brown, gray, and golden yellow for the Tegeran extract with alum fixative. The highest K/S value was 5.56 for the fabric dyed in Tegeran extract with iron (II) sulfate fixative solution. The washing fastness values for Merbau, Tingi, Jambal, and Jolawe were 3-4 (fairly good) to 4-5 (excellent). Meanwhile, the light fastness values for all dyes were between 4 (good) and 5 (excellent). Overall, the standard procedure for cotton fabric dyeing that meets the minimum standards for textile products is obtained.
References
Chakraborty JN. 2010. Fundamentals and practices in colouration of textiles. Woodhead Publishing Limited. doi:10.1533/9780857092823.
Ding Y, Freeman HS. 2017. Mordant dye application on cotton: optimisation and combination with natural dyes. Coloration Technology. 133(5):369–375. doi:10.1111/cote.122 88.
Farooq A, Ali S, Abbas N, Zahoor N, Ashraf MA. 2013. Optimization of Extraction and Dyeing Parameters for Natural Dyeing of Cotton Fabric Using Marigold (Tagetes erecta). Asian Journal of Chemistry. 25(11):5955–5959. doi: 10.14233/ajchem.2013.14202.
Handayani PA, Maulana I. 2013. Pewarna Alami Batik dari Kulit Soga Tinggi (Ceriops tagal) Dengan Metode Ekstraksi. Proposal Sekolah Tinggi Teknologi Tekstil Bandung. 2:6.
Indah UR, Kris I, Presetyoko D, Sc M. 2010. Optimasi Ekstraksi Zat Warna Pada Kayu Intsia bijuga dengan Metode Pelarutan.
Ismail S. 2018. Cotton Cloth: Diversified Applications beyond Fashion and Wearable Cloth. Current Trends in Fashion Technology & Textile Engineering. 2(3). doi:10.19080/CTF TTE.2018.02.555587.
Kavitha VU, Kandasubramanian B. 2020. Tannins for wastewater treatment. SN Applied Sciences. 2(6):1081. doi:10.100 7/s42452-020-2879-9.
Kongkiatpaiboon S, Tungsukruthai P, Sriyakool K, Pansuksan K, Tunsirikongkon A, Pandith H. 2016. Determination of Morin in Maclura cochinchinensis Heartwood by HPLC. Journal of Chromatographic Science. doi:10.1093/chro msci/bmw191.
Kovačević Z, Sutlović A, Matin A, Bischof S. 2021. Natural Dyeing of Cellulose and Protein Fibers with the Flower Extract of Spartium junceum L. Plant. Materials. 14(15):4091. doi:10.3390/ma14154091.
Kumar Samanta A, Agarwal P. 2011. Application of natural dyes on textiles - The traditional way in Rajasthan. Colourage. 58(6):70–72. M Clark. 2014. Handbook of textile and industrial dyeing.
Muthiah W, Evvyani L. 2019. Eksplorasi Teknik Pewarnaan Alam dengan Ekstrak Ekstrak Kayu Jambal Pada Batik Kayu Gempol. Narada : Jurnal Desain dan Seni. 6(2):313. doi:10.22441/narada.2019.v6.i2.008. http://publikasi.me rcubuana.ac.id/index.php/narada/article/view/6262.
Pamungkas MS, Rahyuningsih E, Marfitania T, Fatimah WS. 2021. Physicochemical and dyeing characteristics of cotton fabric dyeing from the extract of angsana (Pterocarpus indicus) bark. Malaysian Journal of Analytical Sciences. 25(5):858–866.
Parveen S, Rafique S, Hussain T, Inayat F. 2019. Colour gamut of pad-steam dyed cotton fabric from natural extracts of Rubia tinctorum and Rubia cordifolia. Journal of Textile Engineering & Fashion Technology. 5(3). doi:10.15406/jte ft.2019.05.00195.
Purwani S, Ndawu TDM. 2019. Studi eksperimen pencelupan fragmen batik dengan zat pewarna alam indigo, jolawe dan tingi. 5(2):1–11.
Rahayuningsih E, Mindaryani A, Adriyanti DT, Parthasiwi LD, P Adina H, E Dyah A. 2020. Conceptual Design of a Process Plant for the Production of Natural Dye from Merbau (Intsia bijuga) Bark. IOP Conference Series: Materials Science and Engineering. (1):012045. doi:10.1088/1757-899 X/778/1/012045.
Singh HB, Bharati KA. 2014. Handbook of Natural Dyes and Pigments. Elsevier. doi:10.1016/C2014-0-02803-1.
Teklemedhin TB. 2018. Dyeing of Wool Fabric Using Natural Dye and Natural Mordant Extracts. Trends in Textile Engineering & Fashion Technology. 4(4). doi:10.31031/TTE FT.2018.04.000593.
Wei Z, He X, Kou J, Wang J, Chen L, Yao M, Zhou E, Fu Y, Guo C, Yang Z. 2015. Renoprotective mechanisms of morin in cisplatin-induced kidney injury. International Immunopharmacology. 28(1):500–506. doi:10.1016/j.intimp .2015.07.009.
