Aviation forgings are one of the key components to ensure the take-off, flight and landing of aircraft. They are commonly found in the engine, wing, rudder and other aircraft structures, mainly bear the mechanical load under high temperature, high pressure and complex load environment. The following are several important roles of aviation forgings in the aircraft operation process: Bearing structural load: Aviation forgings as a structural component of the aircraft, bear important load functions. For example, forged turbine blades and fuselage connectors need to withstand various loads such as high-speed rotation and airflow pressure to ensure the safety and stability of the aircraft during takeoff, flight and landing. Provide connection and support functions: Aviation forgings form a complete system of the entire aircraft structure through connection and support with other components. They ensure the coordinated operation of various components, such as the connection between the engine and the wing, and the connection between the rudder and the control system. Durability and reliability: Aviation forgings require excellent durability and reliability. In harsh working environments, such as high temperature, high pressure and cyclic loads, aviation forgings need to withstand the adverse effects of long-term use and extreme conditions such as fatigue, corrosion and other adverse effects to ensure safe flight. Impact on aircraft performance: The design and manufacturing quality of aviation forgings directly affects the performance of aircraft. Optimized forgings structure and material selection can reduce aircraft weight and improve fuel efficiency, while increasing wing lift and reducing drag, thereby improving aircraft agility, range and load capacity. In short, aviation forgings play a crucial role in the take-off, flight and landing process of the aircraft, and their performance and reliability are directly related to the safety performance and operation efficiency of the aircraft.
