Aluminum fabrication involves creating structures or components by cutting, bending, and assembling aluminum material. This process is widely used in construction, automotive, aerospace, and many other industries due to aluminum’s lightweight, corrosion-resistant, and durable properties.

  • Cutting: Aluminum sheets or extrusions are cut to size using various tools like saws, shears, or
    lasers.
  • Bending/Forming: Aluminum is bent into desired shapes using press brakes, rolling
    machines, or other forming equipment.
  • Welding: Joining aluminum pieces together through welding, typically using methods like TIG
    (Tungsten Inert Gas) or MIG (Metal Inert Gas) welding.
  • Machining: Precision shaping of aluminum parts using CNC machines, lathes, or milling
    machines.

Applications:

  • Assembly: Assembling the fabricated parts into the final structure, which might involve
    additional fastening, bonding, or welding.
  • Finishing: Surface treatments such as anodizing, powder coating, or painting are applied to
    enhance durability and appearance.
  • Construction: Windows, doors, frames, and curtain walls.
  • Automotive: Body panels, engine components, and structural parts.
  • Aerospace: Aircraft frames, panels, and support structures.
  • Marine: Boat hulls, superstructures, and fittings.
    Consumer Products: Electronics casings, kitchen equipment, and furniture