Abstract: Extrusion apparatus with means to effect movement of a die insert. The die insert has an upstream extension with two planes of movement. For each plane of movement, two thrust means are provided, one at each side of the insert for movement in one direction in the plane. Each thrust means acts at an angle to the required direction of movement of the insert, and produces thrust which is inclined to the direction of movement of the thrust means. In one arrangement, two arms move together, one at each side of the insert extension and place thrust upon the extension. In another arrangement there is cam operation controlled by operating rings surrounding the extension. For movement in each plane, the extension is held in that plane by stationary thrust means which, during movement, controls extension movement in the other plane.

Abstract: Apparatus for the continuous forming of material by extrusion and having a rotatable wheel member with an endless groove therein, a stationary shoe member overlying part of the length of the groove and having a portion which projects into said part of the length of the groove and is of a width substantially equal to that of the groove so as to form a passageway therewith, a stationary abutment member associated with the shoe member and projecting into the groove so as to block the downstream end of the passageway, is characterized by the improvement that the wheel member has one or more endless grooves in its periphery, arranged in parallel planes where more than one groove is provided, the shoe member has as many projecting portions as grooves, the or each projecting portion engages the or the respective groove, a duct leads from the passageway formed by the shoe member with the or each groove, through the or the respective projecting portion into a single chamber formed in the shoe member, and one or more d

Abstract: The invention describes a machine and a process whereby a material of unlimited length is continuously extruded into a tubular shape. Two annular toruses have their inner rims connected to rotating drive shafts by leaf springs. The exterior toroidal surfaces have suitable shaped grooves on them. The toruses are squeezed against each other radially by suitable means so as to cause a maximum radial deformation in each of them of a magnitude substantially greater than 0.2 percent but less than an amount that would cause permanent set in the torus material or the leaf springs. This deformation forms a contact length between the two toruses. A further requirement of the radial deformation on the two toruses is that the contact length between them be at least twice the extrusion length necessary for the contemplated extrusion. A bridge die supported by a die stem is located substantially at the center of the contact length.

Abstract: A process for the extrusion of tubes or similar hollow sections from a billet is disclosed within the billet is forced against a hollow extrusion die surrounding a mandrel and a mandrel support. A core passing through the extrusion billet moves in the direction of extrusion with the billet and is led through the mandrel into the space inside the resultant hollow section. The process of the present invention relieves the die of the high stresses which can otherwise lead to early failure of the die.

Abstract: The invention concerns a device for the extrusion of hollow or semi-hollow sections which are made in particular of a light metal. The device has at least one mandrel head on a mandrel support projecting into a die opening, the mandrel head being a special insert-type mandrel which is held in place on the mandrel support by a connecting device.

Abstract: A liquid pressure extrusion method and device for extruding a billet into a tube or tubular member wherein combined dies are used for extruding a solid billet therethrough under a liquid pressure.

Abstract: This concerns a process for manufacturing extrusion sections made of a light weight metal, using an extrusion tool with a single hole die, whereby several extrusions are produced simultaneously using a common single hole in the die. The device for carrying out the process allows a movable steel strip to pass through the common die hole this dividing it up into separate extrusion chambers.

Abstract: An unpierced metallic billet of relatively large diameter is subjected to three successive stages of deformation so as to form a metallic tube of relatively small outer diameter. In a first stage, the billet is given a generally "C"-shaped cross-sectional configuration. In a second stage, the diameter of the generally "C"-shaped cross-section is reduced and, simultaneously, the ends of the generally "C"-shaped cross-section are guided toward and then into contact with one another. In a third stage, the contacting ends are welded together. The three stages of deformation take place in a single die through which the billet is continuously hydrostatically extruded, the hydrostatic extrusion process utilizing a deoxidizing, lubricating, shear transmitting medium in displacing the billet through the die.

Abstract: A process for the manufacture of composite sections comprising at least two components. This is achieved by means of extrusion in particular using a light metal matrix, whereby at least one insert or similar component is fed into the stream of metal being extruded, on each side of the main axis in the region of the extrusion die bearing and covered all over with light metal as a result of pressure from all sides.