Authors :
Sandeep; Naveen V. Padaki; Amrutha K.; S. Periyasamy
Volume/Issue :
Volume 10 - 2025, Issue 12 - December
Google Scholar :
https://tinyurl.com/bsmjfwm7
Scribd :
https://tinyurl.com/44duvxtr
DOI :
https://doi.org/10.38124/ijisrt/25dec1581
Note : A published paper may take 4-5 working days from the publication date to appear in PlumX Metrics, Semantic Scholar, and ResearchGate.
Abstract :
Silk has been celebrated for its superior textile qualities, including strength, elasticity, excellent drapability, and
natural lustre. Despite these advantages the wet fastness of dyed silk remains problematic, particularly in the context of
conventional / traditional dyeing processes prevalent in silk clusters of southern India. These traditional units commonly
employ open pan vessels with direct heating and operate without adherence to standard processing methods and quality
standards regarding dyes, chemicals, auxiliaries, and water. Such practices, often managed by experienced but informally
trained personnel, lead to inadequate color fastness, diminished tensile strength, and uneven dyeing results. In response, the
improved Tub dyeing method has emerged as a promising contemporary alternative. This process utilizes stainless steel tubs
lined with steam pipes and steam boilers for controlled heating, alongside standardized dyes from reputable suppliers,
thereby enabling improved process consistency and reproducibility. In this study, silk yarns were dyed using both
conventional-traditional open pan method and the Tub dyeing technique with acid, direct, and metal complex dyes. The
dyed samples were evaluated for dye uptake, color fastness, and tensile properties. Comparative analysis revealed that silk
fabrics processed via the Tub dyeing method exhibited significantly higher exhaustion, better color fastness, and better
retention of tensile strength relative to those treated with the traditional method. These findings highlight the importance of
Tub dyeing technique as a viable means to upgrade traditional silk processing units and processing standards, enhance dyed
silk yarn performance, and address key quality challenges, thereby contributing to the competitiveness of the Indian silk
industry in both domestic and export markets
Keywords :
Silk; Conventional Dyeing; Tub Dyeing; Colour Fastness; Effluent Characteristics.
References :
- Central Silk Board, Note on Sericulture, CSB, Ministry of Textiles, Govt. of India, Bangalore (2025), www.csb.gov.in/publications/note on sericulture/on. 1stApril,2025
- Gulrajani, M. L. (Ed.). (1993). Chemical processing of silk. Department of Textile Technology, Indian Institute of Technology.
- Nalankilli, G. (2020). Studies on printing and dyeing of silk (Doctoral dissertation).
- Gulrajani, M. L. (1992). Degumming of silk. Review of Progress in Coloration and Related Topics, 22(1), 79-89.
- Gulrajani, M. L., Kaur, M., Kapur, V., & Agarwal, D. (1996). Studies on dyeing of silk with different classes of dyes: Part III-Red Dyes. Colourage, 43(3), 39-44.
- Gulrajani, M.L, Daga, R., Kapur, V, & Agarwal, D. (1995). Studies on dyeing of silk with different classes of dyes: part II--black dyes. Colourage, 42(6), 37-42.
- Yaseen, D. A., & Scholz, M. (2019). Textile dye wastewater characteristics and constituents of synthetic effluents: a critical review. International journal of environmental science and technology, 16, 1193-1226.
Silk has been celebrated for its superior textile qualities, including strength, elasticity, excellent drapability, and
natural lustre. Despite these advantages the wet fastness of dyed silk remains problematic, particularly in the context of
conventional / traditional dyeing processes prevalent in silk clusters of southern India. These traditional units commonly
employ open pan vessels with direct heating and operate without adherence to standard processing methods and quality
standards regarding dyes, chemicals, auxiliaries, and water. Such practices, often managed by experienced but informally
trained personnel, lead to inadequate color fastness, diminished tensile strength, and uneven dyeing results. In response, the
improved Tub dyeing method has emerged as a promising contemporary alternative. This process utilizes stainless steel tubs
lined with steam pipes and steam boilers for controlled heating, alongside standardized dyes from reputable suppliers,
thereby enabling improved process consistency and reproducibility. In this study, silk yarns were dyed using both
conventional-traditional open pan method and the Tub dyeing technique with acid, direct, and metal complex dyes. The
dyed samples were evaluated for dye uptake, color fastness, and tensile properties. Comparative analysis revealed that silk
fabrics processed via the Tub dyeing method exhibited significantly higher exhaustion, better color fastness, and better
retention of tensile strength relative to those treated with the traditional method. These findings highlight the importance of
Tub dyeing technique as a viable means to upgrade traditional silk processing units and processing standards, enhance dyed
silk yarn performance, and address key quality challenges, thereby contributing to the competitiveness of the Indian silk
industry in both domestic and export markets
Keywords :
Silk; Conventional Dyeing; Tub Dyeing; Colour Fastness; Effluent Characteristics.
