Discharge printing explained

Discharge printing is a textile printing technique that involves the application of a discharging agent to strip dye from already-dyed cloth in order to produce a printed pattern, which can be either white or colored. It is a method to imprint a design onto dyed fabric. The print pattern is achieved by applying a substance capable of removing the color, such as chlorine or hydrosulfite, to create a white or light pattern on a darker-hued dyed background. A dischargeable dye is employed for dischargeable printing.

Process

Printing is the process of adding localized or patterned color to fabrics.[1] Discharge printing involves dyeing first with dischargeable dyes; subsequently, the dyed fabric undergoes a printing process involving the application of a chemical-infused paste that effectively removes the color imparted by the dye. The process follows steaming and rinsing stages.[2] [3] [4] The selection of reducing agent or stripping agent depends on the dye. "Extract printing" is simply another term for discharge printing.[5] [6]

Dye

Vinyl sulfone dyes have emerged as the predominant choice for discharge printing, largely owing to their distinctive chemical composition. Notably, the vinyl sulfone group undergoes breaking of bonds under the influence of reducing agents.[7] [8] In discharge printing, careful dye selection is necessary as certain dyes, like vat dye, resist discharge pastes.

Discharge paste

Discharge paste containing reducing agents is used to remove the colour from the dyed ground. Salts of sulfinic acid such as Rongalite may be used as they tend not to weaken the fabric.

Microorganisms in white discharge printing

Certain enzymes produced by bacteria can break down azo dyes and reduce methyl red to dimethyl p-phenylenediamine and o-aminobenzoic acid. These enzymes might be useful for white discharge printing on azo-dyed fabric. The bacteria responsible for producing these enzymes are identified as Bacillus sp. OY1-2, Xanthomonas sp. NR25-2, and Pseudomonas sp. PR41-1.[9], enzymes including laccase were under exploration for their applications in discharge printing.[10]

Types of Discharge printing

White discharge printing

The process of white discharge printing typically entails reducing the dye chemically, resulting in white patterns formed by removing the dyed color.[11]

Fabrics made of denim or other indigo-dyed fabrics undergo a process of discharge using either potassium permanganate or sodium hypochlorite.[12] [13]

Colored discharge printing

When color-discharge printing is used, a dye that can withstand the reducing agent is combined with it. This creates a pattern of color on the fabric that was previously dyed, instead of remaining white.

Notable patterns

Polka dots

The polka dot pattern, a pattern of sizable, solidly filled circles that are uniform in size,[14] is a popular pattern with discharge print.[15]

Strawberry Thief

One of William Morris's most renowned textile patterns is 'Strawberry Thief', which stands out for its use of the discharge printing technique. The motif's origin can be traced back to the predation of strawberries by thrushes in the culinary garden of Kelmscott Manor, located in Oxfordshire. Morris utilized the indigo-discharge printing process to create detailed compositions with well-defined outlines. In 1884, he introduced two significant designs: 'Wandle', a remarkable repetition measuring 98.4 x 44.5cm, and 'Cray', which marked the completion of his outstanding contributions to the field of printed textiles.[16]

See also

Notes and References

  1. Shamey . R. . Hussein . T. . 2005 . Critical Solutions in the Dyeing of Cotton Textile Materials . Textile Progress . en . 37 . 1–2 . 1–84 . 10.1533/tepr.2005.0001 . 136818084 . 0040-5167.
  2. Book: Majumdar . Abhijit . Process Control in Textile Manufacturing . Das . Apurba . Alagirusamy . R. . Kothari . V. K. . 2012-11-27 . Elsevier . 978-0-85709-563-3 . 346 . en.
  3. Book: Venkataraman, K. . The Chemistry of Synthetic Dyes V4 . 2012-12-02 . Elsevier . 978-0-323-14570-1 . 77 . en.
  4. Book: Glossary of Printing Terms . AATCC . 21 . en.
  5. Web site: Discharge printing Synthetic Fibers, Dyes & Pigments Britannica . 2023-08-12 . www.britannica.com . en.
  6. Web site: Textile - Printing, Dyeing, Weaving Britannica . 2023-08-12 . www.britannica.com . en.
  7. Book: Carr, C. . Chemistry of the Textiles Industry . 2012-12-06 . Springer Science & Business Media . 978-94-011-0595-8 . 313 . en.
  8. Nadi . Ayoub . Boukhriss . Aicha . Bentis . Aziz . Jabrane . Ezzoubeir . Gmouh . Said . 2018-04-03 . Evolution in the surface modification of textiles: a review . Textile Progress . en . 50 . 2 . 67–108 . 10.1080/00405167.2018.1533659 . 197611023 . 0040-5167.
  9. Sugiura . Wataru . Miyashita . Toshio . Yokoyama . Tadashi . Arai . Motoo . January 1999 . Isolation of azo-dye-degrading microorganisms and their application to white discharge printing of fabric . Journal of Bioscience and Bioengineering . en . 88 . 5 . 577–581 . 10.1016/S1389-1723(00)87680-X. 16232666 .
  10. El-Thalouth . I. Abd . Kantouch . F. . Nassar . S. H. . El-Hennawi . H. M. . Youssef . M. Adel . 2008 . Ecofriendly discharge printing on cotton fabrics using laccase enzyme . Indian Journal of Fibre & Textile Research . 31 . 1 . 52–57 . en-US . 0971-0426.
  11. Sugiura . Wataru . Miyashita . Toshio . Yokoyama . Tadashi . Arai . Motoo . 1999 . Isolation of azo-dye-degrading microorganisms and their application to white discharge printing of fabric . Journal of Bioscience and Bioengineering . 88 . 5 . 577–581 . 10.1016/s1389-1723(00)87680-x . 16232666 . 1389-1723.
  12. Web site: Assessment . US EPA National Center for Environmental . 2009-03-15 . Optimization of discharge printing of indigo denim using potassium permanganate via response surface regression . 2023-08-12 . hero.epa.gov . en.
  13. Book: The International Dyer, Textile Printer, Bleacher and Finisher . 1988 . Heywood & Company . 22 . en.
  14. Web site: polka dot - Quick search results Oxford English Dictionary . 2023-08-12 . www.oed.com.
  15. Book: Woolman, Mary Schenck . Textiles; a handbook for the student and the consumer . 1926 . New York, MacMillan . Internet Archive . 438.
  16. Web site: William Morris textiles · V&A . 2023-08-12 . Victoria and Albert Museum . en.