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Colour fastness

From Wikipedia, the free encyclopedia

Colour fastness is a term—used in the dyeing of textile materials—that characterizes a material's colour's resistance to fading or running. Colour fastness is the property of dyes and it is directly proportional to the binding force between photochromic dye and the fibre. The colour fastness may also be affected by processing techniques and choice of chemicals and auxiliaries.[1][2]

The term is usually used in the context of clothes. In general, clothing should be tested for colour fastness before using bleach or other cleaning products.[3]

Lightfastness, wash fastness, and rub fastness are the main forms of colour fastness that are standardized. The light fastness of textile dye is categorized from one to eight and the wash fastness from one to five, with a higher number indicating better fastness.[4]

Washing fastness

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The term washing fastness of textiles pertains to the capacity of textile materials, such as fabrics or garments, to maintain their original colour and appearance after undergoing multiple washing and laundering processes. It signifies the textile's ability to endure repeated washing without experiencing fading, bleeding, or other undesirable alterations. The washing fastness of the dyed material is determined by factors such as the solubility and rate of dye desorption from the textile material into soap, detergent, or different alkaline conditions.[5][6]

Light fastness

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Lightfastness is a characteristic of a colourant, such as dye or pigment, which denotes its ability to resist fading when subjected to light exposure.[7]

Grey Scales for change in Shade and staining.
Grey scales for assessing the grades of colour fastness
Test report: Color fastness to washing and rubbing.
Colour fastness test report with grading for demonstration purpose

Dye and the binding forces

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A dye is a coloured substance that chemically bonds to the substrate to which it is being applied. Dyes are classified according to their solubility and chemical properties. Dyes are selected according to affinity; any given dye does not apply to every type of fiber. Different binding forces act between the dye and substrate, such as Van der Waals forces including attraction and repulsions between atoms, molecules, and surfaces, as well as other intermolecular forces. Direct dye application to cotton results in poor fastness properties when washing. The bond differs from covalent bonding in reactive dyes when applied to cotton, which may result far better fastness than direct dyes. Covalent bond is a stronger bond, caused by correlations in the fluctuating polarizations of nearby particles (a consequence of quantum dynamics).[1][8]

Pigments as an exception do not bind chemically with textile materials.[9]

Importance of colour fastness

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Colour is an influential element of fashion and clothing aesthetics; it has great value for both the user and the brand. Colour is one of the most significant features in attracting customers to buy a product or garment, and retaining of the original colour is one of the important quality parameters of coloured textiles. Colour fastness is rated poor if the item does not comply with tests exposing it to washing, light, rubbing and other agents such as perspiration.[10][11]

Test methods for colour fastness

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Fading, change in colour, and staining of adjacent textile materials were[when?] common complaints of poor quality materials. Standardized testing for colour fastness and other parameters was established in the 20th century by industrialized economies such as the US, the UK, Japan, and Europe. The American Association of Textile Chemists and Colorists (AATCC), International Organization for Standardization (ISO) and Society of Dyers and Colourists played vital roles in establishing the test methods.[12]

There are various tests and testing methods according to the physical and functional requirements of the product. For example, fastness to saliva may be important for childrenswear and perspiration and light are important for a golf shirt. European and US retailers use ISO and AATCC standards respectively.

References

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  1. ^ a b Rattee, I. D. (1964). "Bonds between dyes and fibres". Science Progress (1933- ). 52 (208): 581–592. ISSN 0036-8504. JSTOR 43426623.
  2. ^ Shore, J.; Colourists, Society of Dyers and (2002). Colorants and Auxiliaries: Auxiliaries. Society of Dyers and Colourists. ISBN 978-0-901956-78-1.
  3. ^ "Colorfastness". Archived from the original on December 20, 2016. Retrieved December 1, 2011.
  4. ^ Oger, B. (1996). "Fastness to Light and Washing of Direct Dyes for Cellulosic Textiles". Studies in Conservation. 41 (3): 129–135. doi:10.2307/1506527. JSTOR 1506527.
  5. ^ Choudhury, A. K. Roy (2006-01-09). Textile Preparation and Dyeing. Science Publishers. p. 363. ISBN 978-1-57808-404-3.
  6. ^ various (1978). Dictionary of Fiber & Textile Technology. Internet Archive. Hoechst Celanese. p. 16.
  7. ^ "Learn How to Understand the Label on a Tube of Paint". LiveAbout. Retrieved 2023-08-06.
  8. ^ "Proposed Rules". Federal Register. 59 (245): 66080. 19 December 1994. Dyes are intensely colored or fluorescent organic substances that impart color to a substrate by selective absorption of ... mechanical retention, or by the formation of ionic or covalent chemical bonds.
    Dyes are used to color fabrics
  9. ^ Gleba, Margarita (2008). Textile Production in Pre-Roman Italy. Oxybow books. p. 76. ISBN 9781842173305.
  10. ^ Rutnagur, Sorabji M. (2004). "The Indian Textile Journal - Volume 114". The Indian Textile Journal. 114: 7–12.
  11. ^ "Color Fastness: Colour Fastness to Washing" (PDF). i-merino. 2011-10-11. Archived from the original (PDF) on 2011-10-11. Retrieved 2020-10-07 – via Wayback Machine.
  12. ^ John H Xin, Menghe Miao (2017). Engineering of High-Performance Textiles. Elsevier Science. p. 174. ISBN 9780081018859.{{cite book}}: CS1 maint: location missing publisher (link)
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