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Antibacterial Fabrics Suppliers Introduces 4 Ways To Produce Antibacterial Textiles

                       
Update:06-01-2023
Summary:

Antibacterial Fabrics Suppliers introduces 4 production […]

Antibacterial Fabrics Suppliers introduces 4 production methods of antibacterial textiles:

1. Utilize the antibacterial properties of some natural fibers and metal fibers (silver, copper, nickel-chromium alloy, and other metal fiber bundles), such as kapok fiber, hemp fiber, bamboo fiber, etc., as hemp fiber contains cannabinoids, which has Antibacterial; and hemp is hollow fiber, rich in oxygen, making it difficult for anaerobic bacteria to survive, similar to kapok. Flax fiber has a significant antibacterial effect, the antibacterial rate of Pseudomonas aeruginosa and Candida albicans can reach more than 65%, and the antibacterial rate of Escherichia coli and Staphylococcus aureus exceeds 90%. Apocynum fiber has an antibacterial rate of 40% to 60% against Staphylococcus aureus and Candida albicans, which has good antibacterial properties.

2. The antibacterial additives are finished on the fabric by padding, dipping, coating, or spraying. This method does not have a durable antibacterial effect, and the antibacterial property is easily weakened or damaged during wearing (such as washing, sun exposure, and friction). It disappears, but it is convenient, simple, and easy to operate, has a wide range of applications, and can be used for chemical fibers and natural fibers.

3. Modify the fiber internally or externally, such as adding antibacterial finishing agents in chemical fiber spinning or grafting antibacterial groups to the fiber surface. This method requires high technical requirements, complicated operations, advanced equipment, and long-lasting antibacterial properties. high cost.

4. There are two main directions of physical antibacterial. One is to reduce the residence time of aging skin cells in the human body but to let bacteria and fungi die naturally, that is, to use polymer materials with positively charged molecular groups (mainly bacterium sleep fiber technology and graphite ene technology), through the form of contact, the bio negative electricity of bacteria and fungi disappears or weakens, so as to achieve the purpose of natural death of bacteria and fungi. In addition, radio wave radiation and other means can also achieve antibacterial and antibacterial effects. The main application method is the purely physical microwave antibacterial frequency band, which produces a negative electron field effect with the electron layer of textile materials so that bacteria cannot reproduce and produce antibacterial effects. Through the purely physical microwave antibacterial frequency band, it produces a negative electron field effect with the electron layer of the textile material, so bacteria cannot reproduce and produce achieve the antibacterial effect. Physical antibacterial is a new safe and reliable antibacterial method. With the characteristics of low cost, wide processing range, and fast speed (6 hours), it is more and more recognized by downstream customers.

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