The specific requirements for electronic plastic in aerospace applications typically include high temperature resistance, flame retardancy, low outgassing properties, and excellent mechanical strength to withstand harsh environmental conditions and vibrations. Additionally, the material should have good electrical insulation properties, compatibility with other components, and resistance to chemicals and radiation.
The specific requirements for electronic plastic in aerospace applications include high temperature resistance, low outgassing properties, excellent dimensional stability, low moisture absorption, resistance to chemicals and solvents, and compliance with safety and regulatory standards. Additionally, electronic plastic used in aerospace applications must possess high strength-to-weight ratio, good electrical insulation properties, and be able to withstand the harsh environmental conditions such as vibration, shock, and radiation.
Electronic plastic used in aerospace applications must meet several specific requirements. Firstly, it should have a high strength-to-weight ratio, as weight reduction is crucial in aviation. Additionally, it needs to have excellent flame resistance and low smoke generation to ensure the safety of passengers and crew in case of a fire. The plastic should also possess good electrical insulation properties, as it will be used in various electronic components and wiring systems. Moreover, it should have high chemical resistance to withstand exposure to fuels, lubricants, and other harsh substances commonly found in aerospace environments. Lastly, the material must have good dimensional stability to maintain its shape and performance under extreme temperature variations and environmental conditions experienced during flight.
