Hot extrusion forces heated metal billets through a hardened steel die to form rods, tubes, and profiles. Using aluminum, steel, copper, and titanium alloys, the process provides uniform shapes for automotive, aerospace, and construction applications.
Hot extrusion is a deformation process in which heated billets are forced through a die to create long profiles with uniform cross‑sections. Billets are typically heated to 450–500°C for aluminum and up to 1200°C for steels, ensuring sufficient ductility and reduced forming forces. The process can be direct—where the ram pushes the billet toward the die—or indirect, which reduces friction by moving the die toward the billet. Common materials processed include aluminum alloys, copper, steels, and titanium. Tooling usually consists of Hot Work Tool Steel dies, extrusion stems, containers, dummy blocks, and shear rings designed to withstand high pressure, wear, and thermal cycling. Lubrication and die cooling are critical for surface quality and tool life. Hot extrusion enables the production of rods, tubes, bars, structural profiles, and precision components used in automotive, aerospace, construction, heat exchangers, and electrical applications where consistent properties and complex shapes are required.