Application and Characteristics:
The machine employs a horizontal frame and tie-rod (four-column) structure, with the front beam and rear beam connected into a rigid body by four tie-rods (columns), support columns, and fastening nuts, all fixed on the base. The moving beam and extrusion cylinder are positioned between the front beam and rear beam, with the extrusion cylinder equipped with heating and insulation devices. The inside end face of the front beam is equipped with a two-station die-changing device, and there is a scrap trimming device on the front beam or the extrusion cylinder base. The lower part of the machine is equipped with an automatic feeding device.
This equipment is primarily used in the field of extrusion forming for non-ferrous metals such as copper, aluminum, and silver alloys. In a controlled temperature environment, it achieves various materials of different diameters through both forward and reverse extrusion.
Nominal Force: 3,150 - 50,000 kN
Application and Characteristics:
The machine employs a horizontal frame and tie-rod (four-column) structure, with the front beam and rear beam connected into a rigid body by four tie-rods (columns), support columns, and fastening nuts, all fixed on the base. The moving beam and extrusion cylinder are positioned between the front beam and rear beam, with the extrusion cylinder equipped with heating and insulation devices. The inside end face of the front beam is equipped with a two-station die-changing device, and there is a scrap trimming device on the front beam or the extrusion cylinder base. The lower part of the machine is equipped with an automatic feeding device.
This equipment is primarily used in the field of extrusion forming for non-ferrous metals such as copper, aluminum, and silver alloys. In a controlled temperature environment, it achieves various materials of different diameters through both forward and reverse extrusion.
Nominal Force: 3,150 - 50,000 kN