Aerospace Industry

Components: Internal fuselage support structures used to connect various parts of the aircraft body.

Material Selection: Aluminum alloys (e.g., 2024, 7075), known for their high strength and lightweight properties.

Processing Notes: Requires high-precision stamping and deburring to ensure dimensional accuracy and a smooth surface.

Components: Structural parts used to secure the engine to the fuselage.

Material Selection: Titanium alloys (e.g., Ti-6Al-4V), known for their high strength and high-temperature resistance.

Processing Notes: Titanium is difficult to machine, requiring special dies and controlled processing temperatures to prevent material deformation.

Components: Structural parts that support the landing gear and withstand the impact forces during aircraft takeoff and landing.

Material Selection: High-strength steel (e.g., 4130 steel), known for its excellent impact resistance.

Processing Notes: Requires heat treatment and surface finishing to enhance wear resistance and corrosion resistance.

Components: Internal support structures within the wings that maintain the wing's shape and strength.

Material Selection: Aluminum alloys (e.g., 6061), known for their good machinability and strength.

Processing Notes: Requires high-precision stamping and deburring to ensure structural integrity.

Components: Mechanical linkages that connect flight control surfaces and transmit control commands.

Material Selection: Stainless steel (e.g., 17-4PH), known for its high strength and corrosion resistance.

Processing Notes: Requires precision stamping and heat treatment to ensure the linkage's strength and durability.

Components: Hinges that connect the cabin door to the fuselage, withstanding frequent opening and closing motions

Material Selection: Stainless steel (e.g., 304), known for its good corrosion resistance and strength.

Processing Notes: Requires high-precision stamping and surface finishing to ensure the hinge's durability and safety.

Components: Brackets that secure airborne electronic equipment, ensuring the stable operation of the devices.

Material Selection: Aluminum alloys (e.g., 5052), known for their good machinability and thermal conductivity.

Processing Notes: Requires precision stamping and deburring to ensure the bracket's dimensional accuracy and surface quality.

Components: Structural parts that secure passenger seats to the cabin floor.

Material Selection: Aluminum alloys (e.g., 6061), known for their high strength and lightweight properties.

Processing Notes: Requires high-precision stamping and surface finishing to ensure the components' strength and durability.

Components: Brackets that support the air conditioning ductwork in the cabin, ensuring the ducting is stable.

Material Selection: Stainless steel (e.g., 316), known for its good corrosion resistance and strength.

Processing Notes: Requires precision stamping and deburring to ensure the bracket's dimensional accuracy and surface quality.

Components: Brackets that secure the emergency slide to the fuselage, ensuring the slide can be rapidly deployed in an emergency.

Material Selection: Aluminum alloys (e.g., 2024), known for their high strength and lightweight properties.

Processing Notes: Requires high-precision stamping and surface finishing to ensure the bracket's strength and durability.