Compared with ordinary fabrics, the tensile strength of high carbon silk fabric is as high as 1.5 to 3 times, which allows it to withstand greater tensile forces without easily breaking. High carbon silk cloth can maintain non combustion and non melting in high temperature environments above 1000 ° C, which enables it to work stably even in extreme environments. High carbon silk cloth also has good conductivity and can effectively shield electromagnetic wave interference, making it widely used in the field of electronics and electrical engineering. In addition, high carbon silk fabric also has the advantages of low water absorption and good wear resistance, which enable it to maintain stable performance in various complex environments.

The core material of high carbon silk fabric is high-performance carbon fiber, especially using high-performance PAN (polyacrylonitrile) based carbon fiber yarn. This carbon fiber filament is carefully selected and specially treated to ensure excellent performance of the final product. At the same thickness, the weight of high carbon silk cloth is about 40% lighter than that of aluminum metal, which gives it a huge advantage in areas where weight reduction is needed.

The choice of spinning technology directly affects the performance of carbon fibers. Wet spinning, dry spinning, and dry spray wet spinning each have their own advantages and disadvantages, and the appropriate spinning method should be selected according to product specifications and performance requirements. Wet spinning is a traditional spinning method suitable for the production of large fiber bundles of carbon fibers. Dry jet wet spinning combines dry spinning and wet spinning to produce smaller carbon fiber bundles with better performance. During the spinning process, it is necessary to strictly control parameters such as spinning speed, temperature, and pressure to ensure the uniformity and quality of the fibers.

High carbon silk cloth, as an important application form of carbon fiber materials, has a complex and highly specialized production process and technology. The main raw materials are high molecular weight compounds such as polyacrylonitrile. These raw materials undergo special processing, such as polymerization reactions, to form the spinning solution or powdered substance required for spinning. Spinning is the process of transforming carbon fiber materials from powder or liquid to filamentous form. By using a high-speed spinning machine, the spinning solution or powder is sprayed out to form fiber shapes. The spinning process can be divided into various methods such as wet spinning, dry spinning, and dry spray wet spinning, each with its unique advantages, disadvantages, and applicable scope.