Color fastness four or more polyester fabrics, light colors when washing almost no fading, while dark colors (such as black, red, navy, etc. Polyester belongs to the chemical fiber, color fastness is much higher than a natural fiber, general polyester fabrics require color fastness of 3.5 grade or more. This has a lot to do with the color fastness of each fabric. It is important to note that even if each fabric is made from the same materials, they are combined in different ways. Natural fibers can be added and improved, such as nylon cotton.Ĭolor fastness is the ability of a fabric to hold dye in the wash without fading or bleeding. It is better suited for windbreakers, down jackets or hiking wear. Polyester fabrics are generally breathable, and the small spaces between polyester fibers do allow some air circulation. Parameters Polyamide Polyester Breathability Less or not at all breathable Somewhat breathable Colorfastness Less colorfast than polyester Very colorfast Durability Very durable Very durable Moisture-Wicking Yes Yes Softness Very soft and comfortable Sometimes stiff, not as soft Stretchiness Has stretch and flexibility Little to no stretch Warmth Not insulating, use as outer layer Very warm, use as base layer Ease of Care Easy, avoid high heat Easy, avoid high heat Cost Inexpensive Inexpensive Uses Leggings, bathing suits, underwear, carpet Sportswear, t-shirts, beddingData source: How Are Polyamide and Polyester Fabrics Different? Here you can view the pictures and leave a message for inquiries to know more about the types and prices of mesh fabrics. Said washing auxiliaries include the following components according to weight: 10-30 parts of softener, 10-30 parts of fluffy agent, 20-40 parts of antistatic agent, 5-15 parts of silicone oil. (5) Washing: The above obtained semi-finished products are washed with water with the addition of washing aids to obtain said nylon fabric. (4) Shaping: The dyed treated cloth is first shaped at high temperature and then subjected to anti-drilling coating finishing and/or micro porous wet coating finishing to obtain semi-finished products. (3) Dyeing: The blank fabric is first cold rolled and pile pre-treated and desizing, then dyed. (2) Weaving: The obtained deformed filaments are subjected to finishing, sizing and weaving operations with water jet looms to obtain blank fabrics. Then, the melt is spun into preoriented yarn and spun into deformed yarn by stretching machine. (1) Spinning: After extruding and melting the nylon material, the melt is obtained. These include toothbrushes, combs, firearm parts and various types of food packaging. Other types of polyamide fabrics are commonly used in a variety of consumer and military applications. To date, polyamide fibers account for only 12 percent of global synthetic fiber production. However, when polyamide was blended with other materials, it would give it unique properties such as flexibility and silkiness, which led to the increasing use of polyamide with cotton, polyester and wool.īy 1945, polyamides accounted for 25% of the global textile market share, but interest in polyamides has diminished over time. Polyamide fabrics have low permeability and will melt if exposed to extreme temperatures. Consumers around the world soon realized that pure polyamide was not suitable for textile use. In the mid-1930s, DuPont developed polyamide as an alternative to stockings.ĭuring World War II, they used polyamide textiles such as polyamide as a parachute material, and the lack of fabric forced many women to make clothes from recycled parachutes.Īs a result, they used polyamide in women's clothing, although it was a pure polymer version that was used in clothing for a short time. It is popular with the public because of its remarkable elastic structure.Ĭlick here to find the style you want, you can leave the detailed demand to the email, 24 hours to respond to the content immediately. It was patented in the 1930s by the famous American company DuPont. Polyamide fabrics, also called nylon fabrics, were developed by the distinguished American scientist Carothers and a scientific team under his leadership, and were the first synthetic fibers to appear in the world.
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