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Türk1. High temperature resistance of Chemical Bond Nonwoven Interlining
Chemical Bond Nonwoven Interlining fuses fibers through a chemical bonding process to form a high-strength and stable nonwoven. This material has significant high temperature resistance and can withstand cotton jamming at temperatures as high as 260°C without damage. High temperature tolerance is one of its core features, making it particularly suitable for applications exposed to extreme temperatures.
Compared with traditional fabrics, Chemical Bond Nonwoven Interlining can maintain stable physical properties in high temperature environments and is not prone to deformation, fading or degradation. This performance makes it perform well in high-temperature operating environments, especially in applications such as industrial filtration and automotive interiors.
2. Causes and advantages of high temperature tolerance
Chemical Bond Nonwoven Interlining's high temperature resistance comes from the two main raw materials it uses: polyester and viscose. Due to the particularity of its molecular structure, polyester fiber has high thermal stability and deformation resistance, allowing this nonwoven fabric to maintain its shape and function under high temperature conditions.
In addition, the use of a chemical bonding process ensures a high degree of material stability. During the production process, the fibers are held together through chemical glue and heat treatment to form a tight network structure. This structure not only strengthens the connection between fibers, but also improves the high-temperature resistance of the material so that it will not be easily damaged or melted in high-temperature environments.
3. Applications of high temperature tolerance in different fields
Due to its excellent high temperature resistance, Chemical Bond Nonwoven Interlining is widely used in a variety of industries that require high temperature resistant materials, including the following aspects:
a. Filter material
The application of Chemical Bond Nonwoven Interlining in filter materials is particularly important. In air filtration and water filtration systems, higher temperatures are often required. Chemically bonded nonwovens can operate under high temperature conditions for a long time and will not change their physical properties due to high temperatures, thus ensuring the stability and efficiency of the filtration system.
b. Car interior
In automotive interiors, especially components related to high temperature and humidity, such as car seats, headrests, door linings, etc., Chemical Bond Nonwoven Interlining has become an ideal choice due to its excellent high temperature resistance. Vehicles are often exposed to high-temperature interior environments, and traditional fabric materials may age and fade due to prolonged exposure to sunlight and high temperatures. Chemical Bond Nonwoven Interlining maintains its appearance and functionality over time, ensuring the durability and comfort of automotive interiors.
c. Protective materials in high-temperature working environments
In some industrial applications, workers often need to work in high temperature environments. At this time, materials with high temperature resistance such as Chemical Bond Nonwoven Interlining can be used as linings or protective layers in work clothes to provide additional structural support and temperature protection. For example, in the metallurgical industry, petrochemical industry and other fields, Chemical Bond Nonwoven Interlining can effectively improve the durability and comfort of protective clothing while not being affected by high temperatures, ensuring the safety of workers.
d. High temperature medical dressings
In the medical field, especially in burn treatment and hyperthermia, Chemical Bond Nonwoven Interlining also has important applications. Its high temperature resistance makes it an ideal burn dressing material that can provide necessary support and protection in high temperature environments. Chemically bonded nonwovens not only maintain a stable physical form, but also provide comfort and breathability to patients and promote wound healing.
