Abstract
Textile and dyeing are one of the most significant industries in many states. The employing of natural dyes in dyeing procedure is very important due to the environmental security of the area. To obtain a green, clean, and environmentally friendly dyeing of yarns, two natural dyes of madder and weld, which are native to Iran, were employed for dyeing yarns for carpet preparation. Due to the low affinity of natural dyes and maintaining the biocompatibility of the dyeing process, the oak was used as a new tannin rich mordant. The ultrasound-microwave-assisted method in water solution was used for extraction, and yield to the process was obtained about 27, 32, and 36% for madder, weld, and oak, respectively. The extractions were analyzed by UV–Visible and SEM techniques, and the ash, humidity, and density properties of these were investigated. The pre-mordanting method was employed for this study, and ferrous sulphate was used for compare of natural mordant performance. The washed, mordanted, and dyed yarns were investigated by analytical techniques, and the accuracy of these processes was confirmed. The fastness properties as well as the colorimetric characteristics of dyed yarns were assessed using related standards, and the dyed yarns have acceptable performance and could compete with metal mordant, colorimetrically.
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References
Adeel S, Hussaan M, Rehman F, Habib N, Salman M, Naz S, Amin N, Akhtar N (2019) Microwave-assisted sustainable dyeing of wool fabric using cochineal-based carminic acid as natural colorant. J Nat Fibers 16:1026–1034
Adeel S, Naseer K, Javed S, Mahmmod S, Tang RC, Amin N, Naz S (2020) Microwave-assisted improvement in dyeing behavior of chemical and bio-mordanted silk fabric using safflower (Carthamus tinctorius L) extract. J Nat Fibers 17:55–65
Adeel S, Salman M, Anwar Bukhari S, Kareem K, Rehman F, Hassan A, Zuber M (2020b) Eco-friendly food products as source of natural colorant for wool yarn dyeing. J Nat Fibers 17:635–649
Adeel S, Rehman F, Hameed A, Habib N, Kiran S, Zia KM, Zuber M (2020c) Sustainable extraction and dyeing of microwave-treated silk fabric using arjun bark colorant. J Nat Fibers 17:745–758
Amutha K, Grace Annapoorani S, Sudhapriya N (2020) Dyeing of textiles with natural dyes extracted from Terminaliaarjuna and the spesiapopulnea fruits. Ind Crop Prod 148:112303
Ashrafi N, Gharanjig K, Hosseinnezhad M, Khajeh Mehrizi M, Imani H, Razani N (2018) Dyeing properties and color fabrics using natural dye and mordant. Prog Color Colorants Coat 11:79–83
Bhuyan R, Saikia CN, Das KK (2004) Extraction and identification of colour components from the barks of Mimusopselengi and Terminaliaarjuna and evaluation of their dyeing characteristics on wool. Ind J Fiber Textile Res 29:470–476
Chakraborty JN (2010) Fundamentals and practices in colouration of textile. Woodhead publishing India, India, pp 19–20
Chakraborty L, Pandit P, Maulik SR (2020) Acacia auriculiformis—a natural dye used for simultaneous coloration and functional finishing on textiles. J Clean Proud 245:118921
Chan-Bacab M, Sanmartin P, Camacho-Chab JC, Palomo-Ascanio KB, Hiitz-Quime HE, Ortega-Morales BO (2015) Characterization and dyeing potential of colorant-bearing plants of the Mayan area in Yucatan Peninsula. Mexico J Clean Proud 91:191–200
Christie R (2014) Color Chemistry, 2nd edn. Royal Society of Chemistry, Cambridge
Duval J, Pecher V, Poujol M, Lesellier E (2016) Research advances for the extraction, analysis and uses of anthraquinones: a review. Ind Crops Prod. 94:812–833
Ebrahimi I, Gashti MP (2015) Extraction of juglone from Pterocaryafraxinifolia leaves for dyeing anti-fungal finishing, and solar UV protection of wool. Color Technol 131:451–457
ErdemIsmal O (2017) Greener natural dyeing pathway using a by-product of olive oil; Prina and biomordants. Fiber Polym 18:773–785
Gedik G, Avinc O, Yavas A, Khodami A (2014) A novel eco-friendly colorant and dyeing method for poly(ethylene terephthalate) substrate. Fiber Polym 15:261–272
Gong K, Rather LJ, Zhou Q, Wang W, Li Q (2020) Natural dyeing of merino wool fibers with Cinnamomumcamphora leaves extract with mordants of biological origin: a greener approach of textile coloration. J Text Institute 111:2020
Gorjanc M, Mozeti M, Vesel A, Zaplotnik R (2018) Natural dyeing and UV protection of plasma treated cotton. Eur Phys J D 72:41–47
Gurses A, Acikyildiz M, Gunes K, Gurses MS (2016) Dyes and pigments. Springer, Istanbul
Hadder W, Elksibi I, Meksi N, Mhenni MF (2014) Valorization of the leaves of fennel (Foeniculum vulgare) as naturaldyes fixed on modified cotton: a dyeing process optimization basedon a response surface methodology. Ind Crop Prod 52:588–596
Haji A, Naebe M (2020) Cleaner dyeing of textiles using plasma treatment and natural dyes: A review. J Clean Proud 265:121866
Hosseinnezhad M, Gharanjig K, Belbasi S, Seied Saadati SH, Saeb MR (2018) The use of sumac as a natural mordant in green production of Iranian carpet. Fibers Polym 19:1908–1912
Hosseinnezhad M, Gharanjig K, Moradian S, Tafaghodi S (2019) Synthesis and application of some novel fluorescent heterocyclic disperse dyestuffs based on phenothiazine on polyester. Arab J Chem 12:2069–2076
Hosseinnezhad M, Gharanjig K, Razani N, Imani H (2020) Green dyeing of wool fibers with madder: study of combination of two biomordant on K/S and fastness. Fibers Polym. 21:2036–2041
Hosseinnezhad M, Gharanjig K, Jafari R, Imani H (2021) Green dyeing of woolen yarns with weld and madder natural dyes in the presences of biomordant. Prog Color Colorants Coat 14:35–45
Ismal OE, Yildirim L (2019) The impact and prospects of green chemistry for textile technology. UK, Elsevier Pub., Chapter 3, pp. 57-82.
Ismal OE, Yildirim L, Ozdogan E (2015) Valorisation of almond shell waste in ultrasonic biomordanted dyeing: alternatives to metallic mordants. J Text Institute 106:343–353
Khadhraoui B, Turk M, Fabiano-Tixier AS, Petitcolas E, Robinet P, Imbert R, Maâtaoui ME, Chemat F (2018) Histo-cytochemistry and scanning electron microscopy for studying spatial and temporal extraction of metabolites induced by ultrasound. Towards chain detexturation mechanism Ultrason Sonochem 42:482–492
Khattab TA, Bdelrahman MS, Rehan M (2020) Textile dyeing industry: environmental impacts and remediation. Environ Sci Pollution Res 27:3803–3818
Maric M, Grassino AN, Zhu Z, Barba FJ, Brncie M, Brncie SR (2018) An overview of the traditional and innovative approaches for pectin extraction from plant food wastes and by-products: ultrasound-, microwaves-, and enzyme-assisted extraction. Trend Food Sci Technol 79:28–37
Nguyen TH, Watari T, Hatamoto M, Sutani D, Setiadi T, Yamaguchi T (2020) Evaluation of a combined anaerobic baffled reactor–downflow hanging sponge biosystem for treatment of synthetic dyeing wastewater. Environ TechnolInnov 10:100913
Prabhu KH, Teli MD (2014) Eco-dyeing using Tamarindusindica L. seed coat tannin as a natural mordant for textiles with antibacterial activity. J Saudi Chem Soc 18:864–872
Prasad MNV (2016) Bioremediation and Bio economy, Elsevier Pub., Chapter 14, pp 239-359, Waltham, USA.
Rather LJ, Ul-Islam S, Shabbir M, Bukhari MN, Shahid M, Ali Khan M, Mohammad F (2016) Ecological dyeing of woolen yarn with adhatodavasica natural dye in the presence of biomordants as an alternative copartner to metal mordants. J Environ Chem Eng 4:3041–3049
Sadeghi Kiakhani M, Tehrani Bagha AR, Gharanjig K, Hashemi E (2019) Use of pomegranate peels and walnut green husks as the green antimicrobial agents to reduce the consumption of inorganic nanoparticles on wool yarns. J Clean Prod 231:1463–1473
Shahid M, Mohamad F (2013) Recent advancements in natural dye application: a review. J CleanProd 53:310–333
Uddin MG (2014) Effect of different mordants on silk fabric dyes with onion outer skin extract. J Textile 14:1–8
Ul-Islam S, Rather LJ, Shabbir M, Sheikh J, Bukhar MN, Kan MA, Mohammad F (2018) Exploiting the potential of polyphenolicbiomordants in environmentally friendly coloration of wool with natural dye from Buteamonosperma flower extract. J Natural Fiber 16:512–523
Vankar PS, Shanker R, Wijayapala S (2011) Dyeing of cotton, silk and wool with bark extract of ArtocarpusheterophyllusLam. Res J Text Appar 15:52–60
Wizi J, Wang L, Hou X, Tao Y, Ma B, Yang Y (2018) Ultrasound-microwave assisted extraction of natural colorants from sorghum husk with different solvents. Ind Crop Prod 120:203–213
Yang TT, Guan JP, Chen G, Tang RC (2018) Instrumental characterization and functional assessment of the two-color silk fabric coated by the extract from Dioscoreacirrhosa tuber and mordanted by iron salt-containing mud. Ind Crop Prod 11:117–125
Yusuf M, Mohammad F, Shahid M (2017) Eco-friendly and effective dyeing of wool with anthraquinone colorants extracted from Rubiacordifolia roots: optimization, colorimetric and fastness assay. J King Saud University 29:137–144
Zia KM, Adeel S, Rehman F, Aslan H, Khosa MK, Zuber M (2019) Influence of ultrasonic radiation on extraction and green dyeing of mordanted cotton using neem bark extract. J Ind Eng Chem 77:317–322
Zuber M, Adeel S, Rehman F, Anjum F, Muneer M, Abdullah M, Zia KM (2020) Influence of microwave radiation on dyeing of bio-mordanted silk fabric using neem bark (azadirachta indica)-based tannin natural dye. J Nat Fibers 17:1410–1422
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M. Hosseinnezhad: supervision, writing-original draft, conceptualization, visualization, writing-review and editing; K. Gharanjig: writing-review and editing; R. Jafari: writing the colorimetry section in original draft, writing-review and editing; H. Imani: dyeing of yarns and doing fastness properties; N. Razani: extraction of natural dyes and mordants and analyzes.
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Hosseinnezhad, M., Gharanjig, K., Jafari, R. et al. Cleaner colorant extraction and environmentally wool dyeing using oak as eco-friendly mordant. Environ Sci Pollut Res 28, 7249–7260 (2021). https://doi.org/10.1007/s11356-020-11041-2
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DOI: https://doi.org/10.1007/s11356-020-11041-2