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C862A
TENGSHI
| Item: | C862A |
| Composition: | 100% Polyester |
| Width: | 55/56" (140cm) |
| Weight (g/m2): | 610gsm |
| Knitting Technics | Woven |
| Dye Method | Yarn Dye |
| Usage | Furniture,Sofa, Chair, Textile,Curtain |
Color intensity in fabrics is largely determined by the fabric's ability to absorb and retain dyes. The molecular structure of fibers influences how dyes interact with the material. Factors such as ionic charges, hydrophobic or hydrophilic properties, and the presence of specific functional groups play significant roles. For instance, natural fibers like cotton have hydroxyl groups that readily form bonds with reactive dyes, leading to vibrant coloration.
Natural fibers such as cotton, wool, and silk have inherent properties that make them excellent candidates for intense color development. Cotton fibers, being cellulose-based, have numerous sites available for dye attachment, especially with fiber-reactive dyes. Wool and silk, composed of proteins, have amino and carboxyl groups that form strong bonds with acid and basic dyes, resulting in deep and rich colors.
Synthetic fibers like polyester and nylon have different dyeing characteristics due to their hydrophobic nature. Polyester, in particular, requires disperse dyes and high-temperature dyeing processes to achieve vibrant colors. Technological advancements have introduced modified polyester fibers with enhanced dye receptivity, allowing for more intense coloration in Bright Color Fabric made from synthetic materials.
| Item: | C862A |
| Composition: | 100% Polyester |
| Width: | 55/56" (140cm) |
| Weight (g/m2): | 610gsm |
| Knitting Technics | Woven |
| Dye Method | Yarn Dye |
| Usage | Furniture,Sofa, Chair, Textile,Curtain |
Color intensity in fabrics is largely determined by the fabric's ability to absorb and retain dyes. The molecular structure of fibers influences how dyes interact with the material. Factors such as ionic charges, hydrophobic or hydrophilic properties, and the presence of specific functional groups play significant roles. For instance, natural fibers like cotton have hydroxyl groups that readily form bonds with reactive dyes, leading to vibrant coloration.
Natural fibers such as cotton, wool, and silk have inherent properties that make them excellent candidates for intense color development. Cotton fibers, being cellulose-based, have numerous sites available for dye attachment, especially with fiber-reactive dyes. Wool and silk, composed of proteins, have amino and carboxyl groups that form strong bonds with acid and basic dyes, resulting in deep and rich colors.
Synthetic fibers like polyester and nylon have different dyeing characteristics due to their hydrophobic nature. Polyester, in particular, requires disperse dyes and high-temperature dyeing processes to achieve vibrant colors. Technological advancements have introduced modified polyester fibers with enhanced dye receptivity, allowing for more intense coloration in Bright Color Fabric made from synthetic materials.
