Aerospace Industry
As a local Taiwanese stamping and manufacturing company, we specialize in services including stamping, precision grinding, deburring, parts assembly, surface finishing, and tapping. With our versatile range of automated presses (110T, 80T, 60T, 40T, 20T, 15T), we are capable of meeting the manufacturing needs for various aerospace industry components. Below are some common aerospace components, their stamping requirements, material choices, and processing considerations.
Fuselage Structural Brackets
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.
Engine Mounts
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.
Landing Gear Supports
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.
Wing Ribs
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.
Control Surface Linkages
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.
Cabin Door Hinges
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.
Avionics Mounting Brackets
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.
Seat Mounting Components
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.
Air Conditioning Duct Brackets
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.
Emergency Slide Brackets
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.
Common aerospace parts and processing focus include:
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Fuselage structure bracket|Aluminum alloys (2024, 7075) require high-precision stamping and deburring to ensure structural integrity.
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Engine mount|Titanium alloy (Ti-6Al-4V) is resistant to high temperatures and has high strength, and processing requires strict temperature control.
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Landing gear support|High-strength steel (4130) requires heat treatment and surface treatment to improve impact resistance.
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Wing ribs|Aluminum alloy (6061), precision stamping ensures strength and shape accuracy.
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control surface linkage|Stainless steel (17-4PH), requiring high-strength stamping and heat treatment.
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Cabin door hinges|Stainless steel (304) requires precision stamping and surface treatment to ensure durability.
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Electronic equipment bracket|Aluminum alloy (5052), requires good thermal conductivity and dimensional accuracy.
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Seat fixings|Aluminum alloy (6061), lightweight and high strength.
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Air conditioning system pipe bracket|Stainless steel (316), good corrosion resistance.
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Emergency escape slide bracket|Aluminum alloy (2024), needs to be durable and reliable.
In the manufacturing process of the aforementioned aerospace components, stamping plays a crucial role. Through our precise die design and high-efficiency stamping equipment, we ensure the dimensional accuracy and quality stability of every single component. Furthermore, with our subsequent processes like precision grinding, deburring, surface finishing, and tapping, we further enhance the product's functionality and aesthetic quality. We are committed to providing our clients with high-quality, reliable, and competitive aerospace components. We welcome any interested parties to contact us to forge a win-win partnership.