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Aerospace - Parts Sample

Aerospace
Technology:
Rotary: Inertia or Direct Drive Friction Welding
Materials:
Steel, Low Carbon Alloy (Gear Steel) to Steel, Low Carbon Alloy (Gear Steel)
Application:
Cluster gear cross section
Aerospace
Technology:
Rotary: Inertia or Direct Drive Friction Welding
Materials:
Steel, Low Carbon Alloy (Gear Steel) to Steel, Low Carbon Alloy (Gear Steel)
Application:
Cluster gear
Aerospace
Technology:
Rotary: Inertia Friction Welding
Materials:
Nickel-Based Heat Resistant to Nickel-Based Heat Resistant
Application:
Tube to rotor assembly
Aerospace
Technology:
Rotary: Inertia or Direct Drive Friction Welding
Materials:
Titanium to Titanium
Application:
Low compression titanium rotor assembly
Aerospace
Technology:
Rotary: Inertia Friction Welding
Materials:
Nickel-Based Heat Resistant to Nickel-Based Heat Resistant
Application:
Jet engine compressor rotor - as welded
Aerospace
Technology:
Rotary: Inertia Friction Welding
Materials:
Nickel-Based Heat Resistant to Nickel-Based Heat Resistant
Application:
Fan blade rotor
Aerospace
Technology:
Rotary: Inertia or Direct Drive Friction Welding
Materials:
Steel, Medium Carbon Alloy to Steel, Medium Carbon Alloy
Application:
Landing gear drag brace
Aerospace
Technology:
Rotary: Inertia or Direct Drive Friction Welding
Materials:
Steel, Medium Carbon Alloy to Steel, Medium Carbon Alloy
Application:
Landing gear component
Aerospace
Technology:
Rotary: Inertia or Direct Drive Friction Welding
Materials:
Steel, Maraging to Steel, Maraging
Application:
Forged clevis to tubing for manufacture of ball screw. Actuates swing wing on F-14 fighter aircraft.
Aerospace
Technology:
Rotary: Inertia Friction Welding
Materials:
Nickel-Based Heat Resistant to Nickel-Based Heat Resistant
Application:
Jet engine component - as machined
Aerospace
Technology:
Rotary: Inertia or Direct Drive Friction Welding
Materials:
Steel, Medium Carbon Alloy to Steel, Medium Carbon Alloy
Application:
Extension welded to four-blade propeller hub forging
Aerospace
Technology:
Rotary: Inertia or Direct Drive Friction Welding
Materials:
Steel, Medium Carbon Alloy to Steel, Medium Carbon Alloy
Application:
Bosses welded to accumulator housing
Aerospace
Technology:
Rotary: Inertia or Direct Drive Friction Welding
Application:
Military jet engine compensating shaft - as welded
Aerospace
Technology:
Rotary: Inertia or Direct Drive Friction Welding
Materials:
Nickel-Based Heat Resistant to Nickel-Based Heat Resistant
Application:
Fan shaft for military jet engine
Aerospace
Technology:
Rotary: Inertia or Direct Drive Friction Welding
Materials:
Nickel-Based Heat Resistant to Nickel-Based Heat Resistant
Application:
Commercial jet engine fan shaft - as welded
Aerospace
Technology:
Rotary: Inertia or Direct Drive Friction Welding
Materials:
Nickel-Based Heat Resistant to Nickel-Based Heat Resistant
Application:
Military jet engine fan shaft, cross-section - as machined
Aerospace
Technology:
Rotary: Inertia or Direct Drive Friction Welding
Materials:
Titanium to Titanium
Application:
Left: Stator vane root weld - as machined, Center: Stator vane root weld - with flash removed, Right: Stator vane root weld - as welded.
Aerospace
Technology:
Rotary: Inertia or Direct Drive Friction Welding
Materials:
Steel, Medium Carbon Alloy to Steel, Medium Carbon Alloy
Application:
Ball screw actuator
Aerospace
Technology:
Rotary: Inertia or Direct Drive Friction Welding
Materials:
Titanium to Titanium
Application:
Bi-metallic aircraft rivets
Aerospace
Technology:
Rotary: Inertia or Direct Drive Friction Welding
Materials:
Titanium to Titanium
Application:
Stator vane adjustor lever

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