5 pre-treatment methods for dyeing fabrics to obtain dark colors



1 Strengthen the treatment of impurities and contamination of contaminated materials With sufficient pre-treatment, the fabric has good wettability and a large capillary effect, an…

1 Strengthen the treatment of impurities and contamination of contaminated materials

With sufficient pre-treatment, the fabric has good wettability and a large capillary effect, and the diffusion ability of dye molecules to dyes may increase, thereby increasing the dye uptake rate. Therefore, strengthening the treatment of impurities and decontamination of contaminated materials can achieve the above purpose.

2 Mercerizing treatment of cotton fabric
Cotton fabrics after mercerization treatment have significantly improved dye adsorption capacity. Compared with cotton fabrics without mercerization treatment, they can achieve medium and dark colors and have improved surface gloss.

3Alkali weight reduction treatment of polyester fabric
Polyester macromolecules have high crystallinity, tight fiber structure, high refractive index and surface reflectivity. The fiber surface is smooth and mainly specular reflection of light. After it is dyed black with disperse dyes, because there is a large amount of reflected light from the fabric surface, it is white. Light enters the human eye, so deep blacks are harder to obtain. After alkali weight reduction treatment, the original smooth surface of polyester becomes a rough surface, forming a concave and convex irregular reflective layer, which is what we often call the etching effect, resulting in a certain dark color effect, and the fabric after weight reduction treatment The freedom of movement increases and the adhesion of the dye increases.

4Application of low-temperature plasma technology
Plasma technology is a method of treating the surface of fabrics and is a physical dry cleaning process of modern dyeing technology. For example, after plasma-treated polyester fiber is grafted and polymerized, a low-refractive index film is formed on the surface of the fiber, which can significantly improve the dyeing rate and color depth; another example is that after plasma treatment of linen fabrics that are difficult to dye, the fabric The capillary effect is 1~1.5 times that of untreated dyes, which greatly increases the adsorption capacity of dyes. It is easy to dye deep and dense colors, and the dark effect is obvious.

5Ultrasonic technology treatment
Ultrasound is a vibration wave that cannot be detected by human hearing. Sound waves with normal frequencies between 104 and 109 Hz are called ultrasonic waves, while those with frequencies greater than 109 Hz are called special ultrasonic waves or microwave ultrasonic waves. After the fabric is treated with ultrasonic technology before dyeing, the fiber concentration is loosened to a certain extent, which increases the specific surface area inside the fiber, thereby increasing the adsorption capacity of the fiber to the dye, improving the dye uptake rate of the fabric, and achieving medium and dark colors. . After research, this technology has obvious effects on wool fibers with scale layers and linen fabrics with tight surface structures.

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Author: clsrich

 
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