- AluminumAluminum offers an impressive strength-to-weight ratio, making it an ideal choice for aircraft brackets and housings that require high loading capacity. It also exhibits good ductility, stiffness, corrosion resistance, and machinability. Its lightweight nature makes it particularly suitable for aerospace structural applications such as fuselage skin, wing stringers, wing skins, and more.
Price: $
Lead Time: < 10 days
Tolerances: ±0.125mm (±0.005″)
Max part size: 200 x 80 x 100 cm
- TitaniumTitanium possesses several material properties that render it ideal for challenging applications. These properties include outstanding resistance to corrosion, chemicals, and extreme temperatures, as well as an excellent strength-to-weight ratio.These characteristics make titanium alloys excellent choices for airframes and aircraft engines.
Price: $$$
Lead Time: < 10 days
Wall Thickness: 0.75 mm
Tolerances: ±0.125mm (±0.005″)
Max part size: 200 x 80 x 100 cm
- Stainless SteelStainless steel, a type of low-carbon steel, boasts numerous properties highly valued in industrial settings. Typically containing at least 10% chromium by weight, stainless steel is a prime choice for engine and exhaust parts, landing gear components, and critical joints in aircraft superstructures. This selection ensures exceptional performance and durability.
Price: $$
Lead Time: < 10 days
Wall Thickness: 0.75 mm
Tolerances: ±0.125mm (±0.005″)
Max part size: 200 x 80 x 100 cm
- Carbon FiberCarbon fiber-reinforced polymers are widely utilized in the aerospace sector because of their high specific strength and stiffness. They also offer enhanced fatigue and corrosion resistance, making them valuable for structural components such as wing boxes, fuselages, and control surfaces.
- Liquid Silicone RubberOur liquid silicone materials are excellent options for thermal stability and flexibility, excelling in the aerospace industry's extreme environments to ensure resistance to oil and fuel.