We supply all types of Aerospace metal here are the most common aerospace metal grades we sell:

• Aluminium: 2024, 7075
• Steel: 4130, 4340
• Titanium: 6Al-4V, Ti-6Al-2Sn-4Zr-2Mo
• Nickel: Inconel 718, Hastelloy C-276
• Copper: C1010, C1100
• Magnesium: AZ31B, AM60

These grades are chosen for their specific properties, such as strength, lightness, corrosion resistance, and heat resistance. They are used in a variety of components in aircraft, including the airframe, engine, and landing gear.

Aluminium is the most widely used metal in aerospace applications. It is lightweight, strong, and corrosion resistant. Aluminium is also relatively inexpensive, making it a cost-effective choice for many applications. Aluminium is commonly used in aircraft bodies, wings, and fuselages.

Steel is another common metal used in aerospace applications. It is strong, durable, and can withstand high temperatures. Steel is also relatively inexpensive, making it a cost-effective choice for many applications. Steel is commonly used in aircraft landing gear, brakes, and engines.

Titanium is a strong, lightweight, and corrosion resistant metal. It is also relatively expensive, making it a cost-effective choice for some applications. Titanium is commonly used in aircraft airframes, jet engines, and landing gear.

Nickel is a strong, ductile, and corrosion resistant metal. It is also relatively expensive, making it a cost-effective choice for some applications. Nickel is commonly used in aircraft turbine blades, heat shields, and fuel cells.

Copper is a good conductor of heat and electricity. It is also relatively inexpensive, making it a cost-effective choice for some applications. Copper is commonly used in aircraft electrical systems, heat exchangers, and radar systems.

Magnesium is a lightweight, strong, and corrosion resistant metal. It is also relatively inexpensive, making it a cost-effective choice for some applications. Magnesium is commonly used in aircraft frames, landing gear, and structural components.

The use of aerospace metals is essential for the continued advancement of the aerospace industry. By developing new and improved metals that are stronger, lighter, and more corrosion resistant, scientists and engineers can help to create aircraft that are safer, more reliable, and more efficient.

The specifications of aerospace metals can vary depending on the type of metal, the manufacturing process, and the intended application. Some of the most common specifications for aerospace metals include:

• Strength: The strength of an aerospace metal is its ability to withstand forces without breaking. Strength is typically measured in pounds per square inch (PSI).
• Toughness: The toughness of an aerospace metal is its ability to absorb energy without breaking. Toughness is typically measured in foot-pounds per square inch (ft-lbs/in²).
• Corrosion resistance: The corrosion resistance of an aerospace metal is its ability to resist damage from chemicals and other environmental factors. Corrosion resistance is typically measured on a scale of 1 to 10, with 1 being the least resistant and 10 being the most resistant.
• Heat resistance: The heat resistance of an aerospace metal is its ability to withstand high temperatures without melting or deforming. Heat resistance is typically measured in degrees Fahrenheit.

The choice of aerospace metal for a particular application will depend on the specific requirements of that application. For example, an aircraft airframe will require a metal that is strong, lightweight, and corrosion resistant. A jet engine, on the other hand, will require a metal that is strong, durable, and can withstand high temperatures.

By understanding the different types and specifications of aerospace metals, engineers can select the best metal for a particular application. This can help to ensure the safety, reliability, and efficiency of aircraft and other aerospace vehicles.