Components in the aerospace field usually use high-strength, lightweight, high-temperature-resistant and corrosion-resistant materials. The following are common materials in the aerospace field:
High-temperature alloys: High-temperature components such as aerospace engines and gas turbines often use high-temperature alloys, such as nickel-based alloys and titanium-based alloys. These alloys have good high-temperature strength, corrosion resistance and oxidation resistance.
Lightweight alloys: In aerospace, weight needs to be considered, so lightweight alloys such as aluminum alloys and magnesium alloys are often used. These alloys have low density and good strength to meet the weight requirements of aerospace vehicles.
Carbon fiber composite materials: Carbon fiber composite materials have the characteristics of high strength, high stiffness and low density, so they are widely used in the aerospace field. They are often used in the manufacture of aircraft wings, fuselage structures, satellite structures and other components to achieve lightweight and improve flight performance.
Titanium alloys: Titanium alloys are also widely used in aerospace because of their good strength, corrosion resistance, and low density. They are commonly used in the manufacture of aircraft structures, engine parts and spacecraft components, among others.
High-temperature ceramics: In high-temperature environments in the aerospace field, high-temperature ceramic materials, such as alumina ceramics and silicon carbide ceramics, are often used. These materials have good high-temperature stability and wear resistance and are suitable for the manufacture of high-temperature and wear-resistant components.
All in all, accessories in the aerospace field usually use high-strength, lightweight, high-temperature-resistant and corrosion-resistant materials to meet the performance requirements of aerospace vehicles. The choice of these materials depends on the specific application scenario and requirements.