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  • SERVICES
    • Manufacturing Services
    • Contract Friction Welding
    • Part Development
    • Part Ideas & Examples
    • Bi-Metallic Friction Welding
    • Service & Aftermarket Parts
  • INDUSTRIES
    • Aerospace
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  • TECHNOLOGIES
    • Low Force Friction Welding
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    • Linear Friction Welding
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Parts

All Geometry Sample Parts

All our parts have a story behind them. Explore sample parts below to uncover applications, materials, technology and geometrical fittings that might be right for your next project.

Section view of hybrid vehicle aluminum plate welded to cast aluminum heat exchanger box  for  a water tite seal. FSW weld path on plate is facing up.

Section view of hybrid vehicle aluminum plate welded to cast aluminum heat exchanger box for a water tite seal. FSW weld path on plate is facing up.

Materials: Aluminum Alloys

Technology: Friction Stir Welding

Geometry: Lap

Tailor welded blanks top view -1mm and 2mm thick aluminum sheets jointed prior to stamping. Used for vehicle lightweighting.  Heavier 2mm material is deployed  in crtical form support areas

Tailor welded blanks top view -1mm and 2mm thick aluminum sheets jointed prior to stamping. Used for vehicle lightweighting. Heavier 2mm material is deployed in crtical form support areas

Materials: Aluminum Alloys

Technology: Friction Stir Welding

Geometry: Lap

Drive shaft sectioned part front view - tool exit hole shown -lightweighting vehicle while maintaining or increasing durability

Drive shaft sectioned part front view - tool exit hole shown -lightweighting vehicle while maintaining or increasing durability

Materials: Aluminum

Technology: Friction Stir Welding

Geometry: Lap

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Air conditioner rotor assembly. Outer rotor pole is welded to inner rotor pole then this assembly is welded to pulley blank.

Air conditioner rotor assembly. Outer rotor pole is welded to inner rotor pole then this assembly is welded to pulley blank.

Materials:

Technology: Rotary Friction Welding

Geometry: Tube to Disk

Bumper shocks. Tubing welded to stamping for impact absorbing bumper mounts.

Bumper shocks. Tubing welded to stamping for impact absorbing bumper mounts.

Materials:

Technology: Rotary Friction Welding

Geometry: Tube to Plate

Shock absorber base cup. Weld between threaded stud and base cup firmly traps washer in place.

Shock absorber base cup. Weld between threaded stud and base cup firmly traps washer in place.

Materials:

Technology: Rotary Friction Welding

Geometry: Bar to Plate

Input shaft for automotive transmission. Stamped hub to machined barstock.

Input shaft for automotive transmission. Stamped hub to machined barstock.

Materials:

Technology: Rotary Friction Welding

Geometry: Bar to Plate

Figure 2 of 2 Welded stabilizer bar cross-section

Figure 2 of 2 Welded stabilizer bar cross-section

Materials:

Technology: Rotary Friction Welding

Geometry: Tube to Bar

Figure 1 of 2 Stabilizer bars. Tube welded to solid end.

Figure 1 of 2 Stabilizer bars. Tube welded to solid end.

Materials:

Technology: Rotary Friction Welding

Geometry: Tube to Bar

Sport utility 4x4 interconnecting shaft

Sport utility 4x4 interconnecting shaft

Materials:

Technology: Rotary Friction Welding

Geometry: Tube to Tube

Front suspension struts

Front suspension struts

Materials:

Technology: Rotary Friction Welding

Geometry: Tube to Tube

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Manufacturing Technology, Inc. (MTI) is a privately-held, fourth-generation company headquartered in South Bend, Indiana, specializing in transformational, custom-engineered friction welding and resistance welding solutions for manufacturing processes. Our leading-edge expertise is available worldwide on-site for industry applications such as aerospace, oil and gas, automotive, agriculture, construction, consumer product electronics, and military.

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