Defense Aircraft
All composite structures on the defense aircraft, including wings, front fuselage, and tail section, should bear considerable lift force and harsh environmental conditions.
Therefore, carbon fiber reinforced polymers with high strength, high temperature and corrosion resistance can be selected as the components of the defense aircraft.
Defense Aircraft
Helicopters
Helicopter design is forging ahead with composites to achieve cleaner, quieter, and safer rotorcraft. The unique environment of outer places rigorous demands on the materials used for construction of helicopter, such as rtor blades, main and cargo doors and fuselage panels.
Therefore, carbon fiber reinforced po;ymers with a series of excellent properties such as high temperature resistance, friction resistance and corrosion resistance are the best choice.
Helicopters
Space & Launchers
Launching satellites into space creates the ultimate performance challenge for composite materials.In addition to the crucial weight savings, the materials also have to withstand extreme temperature fluctuations. The unique environment of outer space places rigorous demands on the materials used for construction of military and commercial satellites. Severe temperature changes can cause ordinary materials to warp, expand, or contract depending on temperature; however, satellites are subject to relatively little risk from collision damage.
The carbon fiber reinforced polymer with outstanding low moisture absorption and high strain to failure, providing improved dimensional stability and structural performance for demanding applications.. Inherent toughness and micro-cracking resistance, carbon fiber reinforced polymer's high temperature dry and wetservice, lower dielectric constants, and better radiation resistance are other performance advantages for space, radium, and structural applications