In textile processing, stripping is a color removal technique employed to partially or completely eliminate

color Color (or colour in English in the Commonwealth of Nations, Commonwealth English; American and British English spelling differences#-our, -or, see spelling differences) is the visual perception based on the electromagnetic spectrum. Though co ...

from

dyed Dyeing is the application of dyes or pigments on textile materials such as fibers, yarns, and fabrics with the goal of achieving color with desired color fastness. Dyeing is normally done in a special solution containing dyes and particular ch ...

textile Textile is an Hyponymy and hypernymy, umbrella term that includes various Fiber, fiber-based materials, including fibers, yarns, Staple (textiles)#Filament fiber, filaments, Thread (yarn), threads, and different types of #Fabric, fabric. ...

materials. Textile dyeing industries often face challenges like uneven or flawed dyeing and the appearance of color patches on the fabric's surface during the dyeing process and subsequent textile material processing stages. Stripping is one of the reprocessing methods used to correct undesirable colors and flaws in dyed materials. The efficacy of this process relies on factors such as the

dye Juan de Guillebon, better known by his stage name DyE, is a French musician. He is known for the music video of the single "Fantasy Fantasy is a genre of speculative fiction that involves supernatural or Magic (supernatural), magical ele ...

type,

fiber Fiber (spelled fibre in British English; from ) is a natural or artificial substance that is significantly longer than it is wide. Fibers are often used in the manufacture of other materials. The strongest engineering materials often inco ...

material, and the stripping agents utilized. Additionally, the procedure is recognized by alternative terms, namely back stripping or destructive stripping.

Right first time

Right-first-time production in textiles entails achieving correctness on the initial dyeing attempt, resulting in a reduced need for stripping, rework, or redyeing. Stripping is a method of reprocessing employed in the textile industry, wherein the removal of color from fabric becomes essential during the dyeing process. This approach can be employed to rectify any complications encountered during the dyeing process or to alter the color of surplus fabric for subsequent utilization. The stripping process is as complicated as dyeing and requires the greatest care of multiple factors such as dye type, material, reducing agent, cost, etc. When it comes to removing dye from fabric, it is important to distinguish between back stripping and destructive stripping.

Types

Back stripping

Back stripping is a technique employed in the textile industry for the purpose of partial dye removal from fabrics. This method entails the selective extraction or displacement of dye molecules from the textile substrate without causing significant damage to the fabric itself. Back stripping only affects the depth of color. Back stripping primarily relies on the use of appropriate chemicals, solvents, or detergents, often in conjunction with controlled temperature and pH conditions. The objective is to reverse or weaken the

chemical bond A chemical bond is the association of atoms or ions to form molecules, crystals, and other structures. The bond may result from the electrostatic force between oppositely charged ions as in ionic bonds or through the sharing of electrons a ...

s that hold the dye molecules to the textile fibers, allowing them to be lifted or washed away. For an example by applying salt and alkali treatment at a temperature of 95 degrees Celsius, a reduction in dye of 20–40% can be achieved in reactive dyed materials. This occurs due to the

hydrolysis Hydrolysis (; ) is any chemical reaction in which a molecule of water breaks one or more chemical bonds. The term is used broadly for substitution reaction, substitution, elimination reaction, elimination, and solvation reactions in which water ...

of the dye fiber bond. This process is generally less aggressive and aims to color correction.

Destructive stripping

Destructive stripping, on the other hand, represents a more aggressive approach to dye removal from fabrics. This method involves the use of harsh chemicals, strong acids. The primary objective of destructive stripping is to eliminate the dye molecules. This technique may be employed when the complete removal of the dye takes precedence. Destructive stripping is commonly used where the fabric is to be completely re-dyed. In case of destructive stripping, for example, dyes with an azo group (N=N-) can be chemically reduced to an

amine In chemistry, amines (, ) are organic compounds that contain carbon-nitrogen bonds. Amines are formed when one or more hydrogen atoms in ammonia are replaced by alkyl or aryl groups. The nitrogen atom in an amine possesses a lone pair of elec ...

molecule that is almost colorless by using chemical reducing agents. The approach to comprehensive chemical stripping can differ based on the specific dyes applied. There are several methods for carrying out destructive stripping, which can involve reduction alone, oxidation alone, or a combination of both. Another option is to carry out reduction followed by oxidation or oxidation followed by reduction treatment.

Dyes

Direct dyes are removed by either boiling the fabric in alkaline sodium hydrosulfite, bleaching the fabric with

sodium hypochlorite Sodium hypochlorite is an alkaline inorganic chemical compound with the formula (also written as NaClO). It is commonly known in a dilute aqueous solution as bleach or chlorine bleach. It is the sodium salt of hypochlorous acid, consisting of ...

, or boiling the fabric with 1–2%

sodium chlorite Sodium chlorite (NaClO2) is a chemical compound used in the manufacturing of paper and as a disinfectant. Use The main application of sodium chlorite is the generation of chlorine dioxide for bleaching and stripping of textiles, pulp, and pa ...

adjusted to a pH of 3 to 4 using formic or

acetic acid Acetic acid , systematically named ethanoic acid , is an acidic, colourless liquid and organic compound with the chemical formula (also written as , , or ). Vinegar is at least 4% acetic acid by volume, making acetic acid the main compone ...

Reactive dye In a reactive dye, a chromophore (an atom or group whose presence is responsible for the colour of a compound) contains a substituent that reacts with the substrate. Reactive dyes have good fastness properties owing to the covalent bonding that o ...

s constitute a significant category of colorants employed in the dyeing process of cellulosic substances like cotton and viscose. Over 80% of the dyes employed in the dyeing of cellulosic materials are reactive dyes. These dyes, as suggested by their name, possess an inherent capacity to chemically react with the hydroxyl groups present in cellulosic materials, resulting in the formation of

covalent bond A covalent bond is a chemical bond that involves the sharing of electrons to form electron pairs between atoms. These electron pairs are known as shared pairs or bonding pairs. The stable balance of attractive and repulsive forces between atom ...

s. Consequently, this chemical reaction imparts excellent fastness properties to the dyed materials.

Vat dye Vat dyes are a class of dyes that are classified as such because of the method by which they are applied. Vat dyeing is a process that refers to dyeing that takes place in a bucket or vat. The original vat dye is indigo, once obtained only from pl ...

s exhibit resistance to elimination when subjected to reducing chemicals. To remove certain azoic combinations, 1 gram of Hydrosulfite and 6 cubic centimeters of caustic soda 77TW 32% solution of Sodium Hydroxideis recommended.

= Other factors

= Color removal from hydrophilic fibers, which interact well with water, is usually uncomplicated and relies on dyestuff chemistry. Water-soluble agents that react in water often perform the color removal, making the process easy. Dealing with hydrophobic fibers that repel water is more difficult for dyers. They encounter challenges in getting the stripping agent and dyestuff to react in the same environment and must navigate chemical intricacies.

Stripping agents

There are various hydrosulfite compounds that can be used for stripping purposes. The main ones, excluding sodium hydrosulfite, are: * Zinc Formosul (Br) or Decroline (TG) is an insoluble basic zinc sulphoxylate-formaldehyde. * Formosul (Br) or Rongalite C (IG) is a water-soluble sodium sulphoxylate-formaldehyde. * Redusol Z (Br) or Decroline Soluble Conc. (IG) is a water-soluble neutral zinc sulphoxylate-formaldehyde.

Ozone

Stripping reactive dyes with ozone is an alternative technique that replaces traditional chemicals, offering a more ecologically sound approach. The resulting wastewater from the ozone stripping process demonstrates a significantly diminished chemical oxygen demand—approximately 97% lower than the effluent produced by conventional stripping methods. The findings of the research study titled 'Application of Ozone in Stripping of Cotton Fabric Dyed with Reactive Dyes' suggest that optimal conditions for color stripping through the ozone method for reactive dyes involve an ozone dose of 10 g/h, an exposure time of 45 minutes, and maintaining a pH level of 5.

Biochemicals

The stripping of certain reactive dyes, such as Black B, can be achieved using five indigenous strains of white rot fungi (WRF), particularly

Ganoderma lucidum ''Ganoderma lucidum'', commonly known as the reishi, varnished conk, lacquered bracket, or ling chih, is a red-colored species of '' Ganoderma'' with a limited distribution in Europe and parts of China, where it grows on decaying hardwood trees. ...

, in Kirk's basal salts medium.

Advantages

Textile manufacturers frequently grapple with the challenge of uneven and inadequate dye distribution, which adversely affects the final quality of fabrics. This issue arises from a multitude of underlying factors. Stripping can serve as a reprocessing method aimed at rectifying flawed dyeing. Color removal is utilized to recover and efficiently utilize discarded materials. The process of stripping color from textile materials serves multiple purposes. It is used to correct uneven and unsuitable dyeing of fibers, yarns, and fabrics. Additionally, it is employed to change the color of dyed textiles to a more desired shade, thereby increasing their marketability.

Textile recycling

The fashion industry exerts a substantial environmental footprint, primarily attributed to the heightened production of textile waste stemming from the proliferation of fast fashion business models. The textile industry, faced with its ever-expanding environmental footprint, is urgently seeking sustainable technologies. It is actively pursuing chemical-based recycling solutions tailored for all primary fiber types, including cellulosic materials like cotton, as well as synthetics such as polyester and nylon. Completely removing color is a crucial step in the chemical-based recycling process of dyed textile waste. In the realm of textile color removal, two primary methods prevail: dye-destruction and dye-extraction. Yet, both approaches have struggled to achieve sustainable and thorough color removal while preserving the integrity of the polymers involved. Processes like oxidation and photodegradation, which fall under dye-destruction, often result in polymer damage and can lead to changes in the dyeability of regenerated fibers. While dye-extraction is a frequently employed technique in forensic science, it falls short of achieving complete color removal from textiles.

Disadvantages

Stripping is a technique that can potentially lead to a reduction in the strength of the treated materials. Moreover, it exerts a notable influence on production expenses and gives rise to certain environmental and health considerations.

References

{{Fabric Textile arts Textile techniques Textile treatments Dyeing