Dyes. Applications, Properties And Equipment



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Dyes Applications, Properties And Equipment

Definition of Dyeing The application of color to the whole body of a textile material with some degree of fastness. Natural Dyes Cochineal Tyrian Purple Madder Indigo Safllower Saran Woad Logwood 14-2 Dyes - AppUcatrons, PropertlesAnd Equipment

Dyeing Fiber A. Stockdyeing B. Dope dyeing II, Yarns k Skeindyeing B. Package dyeing C. Beam dyeing I a Fabrics A. Piecedyeing B. Printing 1. Roller a. Application b. Resist c. Discharge 2. Flat screen 3. Rotary screen C. Tiedyeing D. Garment Dyeing

Objectives Of Dyeing Shade Fastness Properties cost -- 14-4 Dyes - Appllcatlons, PropertresAnd Equipment

Keys To Good Quality Consistency Uniformity Knits-low tension Wovens-penetration

Types Of Dyeing Systems Aqueous - ir, water Non-aqueous - in organic solvents Sublimation - thermosal, heat transfer Hvdrophilic Fibers cotton, rayon, wool, silk Types of Fibers HvdroDho bic Fibers acetate, polyesters, polyamides, polyacrylonitriles -- 14-6 Dyes - ~catiorrs. PropertlesAnd Equipment

Exhaustion Dyeing (From Aqueous Bath) lm+ U - Dyebath Cloth 1 Key Terms Depth of shade (% dye owt) LiquorRatio Fractional Exhaustion Equilibrium - Exhaustion - Fiber Concentration - Dyebath Concentration - Distribution Coefficient --

Four Basic Steps In The Dyeing Process 1. Dissolve or disperse dye 2. D-e the dye to the surface of the fiber 3. Adsorb the dye "onto" the fiber surface 4. Diffuse dye "into" the fiber 146 e/es - Appucatlons. ProPertlesAnd Equtpment

Causes Of Non-Level Dyeings Too little agitation Too low liquor ratio Rate of dyeing too high Uneven pick-up in padding Uneven moisture penetration Migration during drying Chemical or mechanical bard in the fabric Dyebath Instability Construction

I Dyestuff Classes There are many types of colorants varying according to end use requirements for wash, light, resin, chlorine, heat, gas and crock fastness. Variations in dyeing charges are dependent upon many factors, including course, fastness, brilliance, depth and intensity. Direct Dves+ Direct dyes are perhaps the most widely used and most economical of all classes. Some of the pastels and light shades possess good wash and light fastness but medium and heavy colors, particularly the latter, are not recommended. The application of Direct dyes is the least complicated; chemically they are salts of complex sulfonic acids. They are soluble in water and have an af inity for a wide variety of fibers. Developed Dyes* The wash fastness properties of Developed dyes are better than Directs, particularly in the medium and heavy ranges of colors. Generally speaking, Developed colors have a tendency to be dull. They are not recommended where light fastness is a requisite. Developed dyeings are actually selected Direct dyeings treated in a cold bath with nitrous-acid and coupled with a developer to make a larger molecule of the original Direct dye, while on the other hand, the Direct dyes are physically held onto the fiber. Sulficr Dyes+ Sulfur dyes are relatively inexpensive; they are insoluble in water and have no affinity for the fiber until reduced with alkaline sulfide compounds. They are applied to the fiber in a reduced state and oxidized within the fiber to an insoluble dye again. Shades in Sulfur dyes are dull, therefore these dyes are used chiefly for black. They possess good wash and light fastness and are satisfactory for dry crocking. They should be classed as poor for wet crocking and chlorine fastness. Reactive Dyes+ Very bright shades of pink, green, blue and turquoise can be produced with Reactive dyes. Fastness properties are generally good except to chlorine. These dyes are edluble in water and are salted out of solution onto the fiber where they are make to react chemically within the fibers. *Used primarily on cotton and rayon 14-10 Dyes - Applicatkn~, R~pertlesAnd Equipment

NaDhthoZ Dyes+ Naphthol dyes are classified as fast dyes, usually slightly cheaper than Vat dyeings; the methods of application are complex and the range of colors limited. Brilliant reds are the most important but Naphthol dyes are also used for maroon, brown and black. Naphthol dyes are insoluble azo dyestuffs that are produced on the fiber by applying a Naphthol to the fiber and then combining it with a diaqotized base or salt at a low temperature to produce an insoluble dye molecule within the fiber. Crocking fastness varies with shades but washing fastness is equal to Vat dyeings, generally with less light fastness than the Vats. Vat &es+ Vat dyes are best for all-around fastness and are generally the most expensive. They may be selected for fastness to overbleaching and are the best class for chlorine fastness. Reasonably bright shades can be produced except for brilliant red. Vat dyes are insoluble compounds and have no amnity for the fibers until reduced with caustic soda and hydro. These dyes are applied in a solution in reduced state and oxidized to the insoluble dye again within the fiber. Acid Dyes Acid dyes are used for dyeing wool, nylon, certain acrylics such as Tvpes 24 and 28 Orlon, and other chemical fibers. They are applied in a similar method to Direct dyes but usually from an acid bath. fastness properties vary with the dyes as in other classes. Basic Dyes Basic dyes are applied mainly to aaylic fibers such as Types 42 and 75 Orlon and Type 61 Creslan, to produce bright and deep shades with good light and wash fastness. the application of Basic dyes is similar to that of Direct dyes n cotton but requires different and more precise controls with auxiliaries and temperature. Disperse dyes are used mainly on acetate, nylon, polyesters and acrylics. Their fastness properties vary with the dye, color and fiber on which they are used; on acrylics their fastness properties are generally inferior to Basic or Acid dyes. Disperse dyes are applied by a procedure similar to Direct dyes but with different controls depending on the fiber to which they are applied. *Used primarily on cotton and rayon

IC BZeaching Bleaching is a process used to remove color from an undyed fiber, yarn, or fabric. The object is to produce a good white of dorm color, while maintaining the desirable elasticity, strength, luster and other physical properties. Hydrogen peroxide or sodium hypochlorite is used on cotton while hydrogen peroxide is used almost exclusively on synthetics. BZends The dyeing of blends, such as Damn with Cotton or Orlon with Cotton, normally will require the application of several dyestds depending on the fastness requirements of the end use application. Because of the combination of different dyes and their individual processing requirements, the procedure (almost always a two cycle dyeing) may be lengthy and complicated, adding substantially to the cost of dyeing..- 14-12 we~ - Appllcatkns, R~pertlesAnd Equipment

Fiber- Dye Possibilities Dye trapped in fiber Dye and fiber have opposite charges Chemical reaction between dye and fiber "Glue" dye on fiber

Factors In Selecting Dyes Economy Shade (brightness or dullness) Fastness Requirements Level Dyeing Properties Barr6 Control Ease of DispersiodDissolving Dusting Environmental Concerns

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