What are the principles of 8 types of functional organization?

The process of treating with chemical water-repellent agents to reduce the surface tension of the fiber so that water droplets cannot wet the surface is called water-repellent finishing, also known as breathable waterproof finishing. Suitable for raincoats, travel bags and other materials. The water-repellent finishing effect of fabrics is also related to the organizational structure of the fabrics. Fabrics treated with a water-repellent treatment retain their breathability. However, different water-repellent finishing agents have different applicability to fibers, water-repellent effects after finishing, resistance to washing, dry cleaning, friction, and durability.

Water-repellent finishing can be divided into two types: semi-durable and durable according to the durability of the water-repellent effect. The former is easy to handle and low in price. It is mainly used for cotton and linen fabrics, but can also be used for silk and synthetic fiber fabrics. The latter is mainly used for cotton and linen fabrics. The use of silicone water-repellent finishing agents is not only suitable for various fiber fabrics, but also makes the fabrics have good and more washable water-repellent properties. It can also increase the tear strength of the fabrics and improve the fabric’s feel and sewing performance.

The process of treating fabrics with oil-repellent finishing agents to form an oil-repellent surface on the fibers is called oil-repellent finishing. The oil-repellent surface tension of the finished fabric is lower than the surface tension of various oils, making the oil bead-like on the fabric and difficult to penetrate into the fabric, thus producing an oil-repellent effect. The fabric that has been treated with oil-repellent finish is both water-repellent and has Good breathability. Mainly used for high-end raincoats and special clothing materials.

Fibers, yarns or fabrics are charged with static electricity due to friction during processing or use, which brings difficulties and troubles to subsequent processes and clothing wearing. Anti-static finishing is a process in which chemicals are applied to the surface of fibers to increase their surface hydrophilicity to prevent the accumulation of static electricity on the fibers. The accumulation of static electricity in fibers is related to their hygroscopicity. For example, synthetic fibers have very low hygroscopicity and high surface resistance, so they tend to accumulate static electricity. In order to change this situation, hydrophilic substances can be used to improve the hygroscopicity of the fiber surface and reduce the surface specific resistance.

Easy decontamination finishing is a process that makes the dirt on the surface of the fabric easy to remove with ordinary washing methods and prevents the washed dirt from returning to soil during the washing process. During the wearing process, fabrics form dirt due to the adsorption of dust and human excreta in the air as well as contamination. In particular, synthetic fibers and their blended fabrics are prone to electrostatic adsorption of dirt. Due to the poor hydrophilicity of the surface, water cannot easily penetrate into the fiber gaps during washing, making it difficult to remove dirt. And because the surface of the fabric is lipophilic, dirt suspended in the washing liquid can easily re-contaminate the fiber surface, causing re-contamination.

The basic principle of increasing the ease of stain removal of synthetic fibers and their blended fabrics is to use chemical methods to increase the hydrophilicity of the fiber surface and reduce the surface tension between the fiber and water. It is best that the hydrophilic layer on the surface can expand after being wetted. This generates mechanical force so that dirt can leave automatically. The method is to pad a layer of hydrophilic polymer material on the surface of the fabric. After easy decontamination and finishing, it can also be added��The antistatic properties of the fabric make it comfortable to wear and soft to the touch, but the tear strength of the fabric has decreased.

In hot and humid climate conditions, when textiles contain substances such as slurry and fat, microorganisms can easily multiply. The enzymes secreted by bacteria, actinomycetes, and molds can decompose fibers into their food and cause fiber damage. Anti-mildew and anti-corrosion finishing generally involves applying chemical anti-mildew agents to cellulose fiber fabrics to kill or prevent the growth of microorganisms. In order to prevent textile crystals from getting moldy during storage, antifungal agents such as salicylic acid, which has no significant impact on the color and dye fastness of the product and is relatively safe for human health, can be used. For cellulose fiber textile crystals used under open air conditions, a copper naphthenate salt mildew inhibitor that is relatively resistant to water washing can be used for padding treatment.