The specific application of all resin carbon belt in aerospace industry

All-resin carbon belt has a wide range of applications in the aerospace industry, mainly reflected in the following aspects:

First, lightweight and strengthening of structural components

Main bearing structural parts: In aerospace spacecraft, all-resin carbon belts are often used to manufacture main bearing structural parts such as fuselage, wings, and horizontal tails. These components require materials with high strength, high stiffness and lightweight properties, and all-resin carbon tape is the ideal material to meet these needs. By adopting all-resin carbon belts, aerospace spacecraft are able to achieve lightweight structural components, thereby improving flight efficiency and fuel economy.

Secondary bearing structural parts: In addition to the main bearing structural parts, the all-resin carbon strip is also used to manufacture secondary bearing structural parts such as radomes, fairings, and engine hoods. Although these components do not directly bear the main load during flight, they are equally important to the performance and safety of aerospace spacecraft. The use of all-resin carbon strips contributes to the durability and reliability of these components.

Second, the application of high temperature environment

High-temperature carbon belt: In the aerospace field, some parts such as engines, exhaust pipes, etc., need to withstand high temperature environment. For these special needs, high temperature resistant resin carbon belt came into being. This carbon belt can maintain stable performance in high temperature environment, improve the thermal conductivity and wear resistance of aerospace spacecraft.

Third, improve safety performance

Scratch and wear resistance: aerospace spacecraft may encounter various complex meteorological conditions and external environments during flight, so its surface components need to have good scratch and wear resistance. The application of all-resin carbon tape can effectively improve the durability of these components and reduce the safety risks caused by wear or scratching.

Corrosion resistance: Aerospace spacecraft may be eroded by corrosive environments in the course of long-term use, such as Marine environments, industrial exhaust gases, etc. The all-resin carbon belt has good corrosion resistance, which can protect the aerospace spacecraft from corrosion damage and extend its service life.

Fourth, promote technological innovation and industrial upgrading

Promoting the development of materials science: The application of all-resin carbon strips in the aerospace industry has promoted the development of materials science. In order to meet the demand for high-performance materials in the aerospace field, researchers continue to develop new all-resin carbon strip materials and technologies, improving the level of the entire field of materials science.

Drive the development of related industrial chains: The application of all-resin carbon belts in the aerospace industry has also driven the development of related industrial chains. From raw material supply, manufacturing to downstream applications, a complete industrial chain system has been formed, injecting new vitality into economic development.

In summary, all resin carbon belt has a wide range of application prospects and important strategic significance in the aerospace industry. With the continuous progress of technology and the continuous growth of demand, the application of all-resin carbon belt in the aerospace field will be more extensive and in-depth.