Solid-state joining

Photo of linear friction welded titanium sample

Linear friction welded titanium sample

NRC has the expertise and facilities to investigate solid-state joining for the manufacture of aerospace components. The focus of current investigations is on friction stir and linear friction welding technologies.

NRC is developing expertise in friction stir welding, using an MTS ISITIR system capable of solid-state (no melting) processing of aerospace materials. The technology uses frictional heat, generated by a rotating spindle travelling along a joint to weld two components. Friction stir welded joints are characterized by low distortion, low porosity, no shrinkage and superior mechanical properties, due to their refined microstructure. Friction stir welding can be used to join dissimilar and traditionally non-weldable materials, and it has shown promise as an alternative to the use of rivets to join aircraft structures. Currently, studies are underway on process development and optimization of the technology for use in manufacturing airframe and engine components from various aerospace materials.

NRC is using a pilot-scale linear friction welder for process development studies aimed at helping Canadian companies evaluate the technology for use in manufacturing near net shape components. Linear friction welding relies on pressure and linear reciprocating movement to generate sufficient heat to soften and join two components. It creates reproducible, high-quality welds that have small heat-affected zones and excellent mechanical properties. Dissimilar materials can be joined, as well as components with irregular cross-sections or complex shapes, with minimal material loss. Projects are currently underway to investigate the applicability of this technology for welding nickel-based superalloys, ultra high strength steels and titanium alloys.

Equipment specifications:

Friction stir welding system

  • AxisStrokeSpeedForce
  • X41"0-60 ipm200 to 15,000 lbf
  • Y24"0-60 ipm200,800 lbf
  • Z12.5"0.1-55 ipm30,000 lbf torsion; 5,000 lbf compression
  • Tool rotationInfinite200-2000 RPM or 50-800 rpm1,600 lbf•in; 5,000 lbf•in with a gear reducer (4:1)
  • Pitch adjustment±15°.1-300 min-1200-20,000 lbf
  • Adjustable pin1.25"0.1-50 ipm20,000 lbf
Image of friction stir welded aluminum sample showing a lap weld configuration (top)and weld microstructure(bottom)

Friction stir welded aluminium sample

Man using linear friction welding equipment

Linear friction welding equipment

Man standing in front of a friction stir welding system

Friction stir welding system

Linear friction welder

  • forge load: 60 kN to 90 kN (13,500 to 20,250 lbs);
  • displacement: ±6 mm (1/4");
  • in-plane actuator:
    • friction force: 50 kN (11,250 lbs);
    • displacement: ±10 mm (3/8");
    • amplitude range: ±0.2 mm to ±5 mm (3/16");
    • frequency range: 15 Hz up to 125 Hz;
  • Hade axis:
    • side force: up to 10 sec.
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