Browse > Article
http://dx.doi.org/10.5764/TCF.2022.34.4.234

Dyeing and Fastness Properties of Oak Veneer Dyed with Vinyl Sulfone Type Reactive Dyes  

Cho, Hang Sung (Advanced Textile R&D Department, Korea Institute of Technology)
Shim, Euijin (Advanced Textile R&D Department, Korea Institute of Technology)
Publication Information
Textile Coloration and Finishing / v.34, no.4, 2022 , pp. 234-240 More about this Journal
Abstract
Use of processed timber can help reduce environmental damage and the economic burden of resources (important problems with use of raw timber) and can meet the needs of various fields where the sensibility of raw timber is required. Veneer wood is positioned as a high-value-added product due to its luxury and beauty, and it is used in various fields as a building-related material, such as interior decoration, furniture, flooring, building interior materials, and lumber. Dyeing is necessary to enhance the aesthetic appearance of this pattern and to expand its use. Therefore, in this study, we compared and analyzed the dye ability of oak-patterned materials with reactive dyes, and evaluated their performance as interior materials. As a result, the oak pattern was dyed with 9 kinds of reactive dyes and a comparative analysis was performed. The most suitable conditions are 50℃, 2 hours, and 0.5% o.w.f. In addition, evaluating resilience to daylight, resilience to rubbing, fire resistance, and flame retardance, yielded results suitable for use as an interior material. In this study, the dyeability of veneer dyed under various conditions using reactive dyes was compared and analyzed the performance as an interior material was evaluated.
Keywords
wood; oak; reactive dye; dyeing property; dyeability;
Citations & Related Records
Times Cited By KSCI : 2  (Citation Analysis)
연도 인용수 순위
1 T. Alapieti, R. Mikkola, P. Pasanen, and H. Salonen, The Influence of Wooden Interior Materials on Indoor Environment: A Review, European Journal of Wood and Wood Products, 78(4), 617(2020).   DOI
2 J. Shen, X. Zhang, and Z. Lian, Impact of Wooden Versus Nonwooden Interior Designs on Office Workers' Cognitive Performance, Perceptual and Motor Skills, 127(1), 36(2020).   DOI
3 X. Wang, R. Tang, Y. Zhang, Z. Yu, and C. Qi, Preparation of a Novel Chitosan Based Biopolymer Dye and Application in Wood Dyeing, Polymers, 8(9), 338(2016).   DOI
4 R. Javaid and U. Y. Qazi, Catalytic Oxidation Process for the Degradation of Synthetic Dyes: An Overview, Internati onal Journal of Environmental Research and Public Health, 16(11), 2066(2019).   DOI
5 N. S. Ahmed, The Use of Sodium Edate in the Dyeing of Cotton with Reactive Dyes, Dyes and Pigments, 65(3), 221(2005).   DOI
6 A. Khatri, M. H. Peerzada, M. Mohsin, and M. White, A Review on Developments in Dyeing Cotton Fabrics with Reactive Dyes for Reducing Effluent Pollution, Journal of Cleaner Production, 87, 50(2015).   DOI
7 X. Guan, W. Li, and J. Huang, Study on the Dyeing Process of Fast-growing Fir Veneer with Reactive Dyes, Pigment and Resin Technology, 2022. https://doi.org/10.1108/PRT-09-2021-0114   DOI
8 A. K. Samanta, P. Agarwal, D. Singhee, and S. Datta, Application of Single and Mixtures of Red Sandalwood and Other Natural Dyes for Dyeing of Jute Fabric: Studies on Colour Parameters/colour Fastness and Compatibility, The Journal of the Textile Institute, 100(7), 565(2009).   DOI
9 M. H. Guo, X. J. Liu, and Z. Y. Li, "Studies on the Dye-uptake of Fraxinus Mandshurica Veneer with Reactive Dyes, In Applied Mechanics and Materials", Trans Tech Publications Ltd, Vol. 44, pp.2288-2292, 2011.
10 Y. Y. Zhu and J. J. Long, The Uptake Behavior of Acid Dye on Silk Fabric Under Laminar Flow in a Coloration Circular Pipe, Journal of Cleaner Production, 365, 132705 (2022).   DOI
11 L. Fang, X. Zhang, and D. Sun, Chemical Modification of Cotton Fabrics for Improving Utilization of Reactive Dyes, Carbohydrate Polymers, 91(1), 363(2013).   DOI
12 E. M. Hinsch and S. C. Robinson, Comparing Colorfastness to Light of Wood-staining Fungal Pigments and Commercial Dyes: an Alternative Light Test Method for Color Fastness, Coatings, 8(5), 189(2018).   DOI
13 H. J. Park, M. W. Mingyu-Wen, S. H. Cheon, J. W. Hwang, and S. W. Oh, Flame Retardant Performance of Wood Treated with Flame Retardant Chemicals, Journal of the Korean Wood Science and Technology, 40(5), 311(2012).   DOI
14 S. Yu, D. Xu, X. Zhang, Y. Yu, Y. Liu, X. Wang, and N. Li, Development of Dyeing Mechanism of Wood with Reactive Dyes, Proceedings of the International Symposium on Energy Science and Chemical Engineering, December, Guangzhou, Atlantis Press, pp.141-144, 2015.
15 W. Wang, M. Zammarano, J. R. Shields, E. D. Knowlton, I. Kim, J. A. Gales, M. S. Hoehler, and J. Li, Novel Application of Silicone-based Flame-retardant Adhesive in Plywood, Construction and Building Materials, 189, 448 (2018).   DOI