203results about "Extrusion profiling tools" patented technology

The invention discloses a torsion type reciprocating extrusion device and a process method thereof, belonging to the technical field of plastic formation. The device comprises a cavity die, a cavity die cover plate and a cavity die fixing plate, wherein the cavity die fixing plate is fixed on a work table, and the cavity die with a variable section spindle structure is arranged between the cavity die fixing plate and the cavity die cover plate. The process method makes materials generate the compound formation of reciprocating extrusion and torsion shearing so as to prepare ultra-fine grained materials with larger volume and uniform tissue.

The invention discloses a polyvalent microalloying high-chromium cast-iron and usage of rare earth, which comprises the following parts: 1.0-3.5% carbon, 8.0-26.0% chromium, 0.5-4.5% nickel, 0.15-2.0% molybdenum, 0.5-2.0% copper, 0.05-2.0% aluminium, 0.03-0.3% vanadium, 0.005-0.20% rare earth, not more than 0.5% silicon, not more than 0.7% manganese, not more than 0.05% phosphor and ferric.

A method to manufacture a steel die having a Physical Vapor Deposition wear resistant coating on a profile surface and a steel die formed thereby is disclosed. The steel die is subjected to quenching and tempering to achieve a Rockwell hardness in the range of about 40-45 Rc and then subjected to machining to form a profile surface. The surface is then subjected to Physical Vapor Deposition of a wear resistant coating that may be multiple layers of CrN, AlCrN, TiCrN, TiN, TiCN or TiAlN, and preferably is alternating layers of TiN—TiCN—TiN. The coating is applied at a sufficient thickness to impart wear resistance to the steel die. The steel dies are useful in sheet metal stamping operations.

The invention relates to a non-metal filling medium used for fabricating a three-way pipeline and a process for extruding the three-way pipeline. The filling medium is a non-metal power material which is uniformly mixed and consists of three powders: talcum powders H2Mg3(sio3)4, industrial salts NaCl and urease (NH4)2CO; the three powders are uniformly mixed respectively according to the mass proportion of 5-25%, 95-50% and 0-25%. The extrusion material range of the three-way pipeline of the invention is multiple high-plastic materials such as copper, iron, low carbon steel and cold extrusion stainless steel, etc.; therefore, the three-way pipeline can extrude and fabricate copper three-way pipeline, iron three-way pipeline, low carbon steel three-way pipeline and stainless steel three-way pipeline, etc. The non-metal filling medium and the process of the invention have obvious technical advantages of meeting the instruction requirement which is issued by European, Japan, etc. and contains that lead is not allowed to be added in the three-way pipeline production process, thereby completely avoiding the pollution of heavy metals such as lead, etc., having lower cost than the lead-pouring extrusion, having longer length and higher working efficiency than the oil (water) injection extrusion, and enlarging the ranging of extrusion material to the fields of multiple high-plastic material such as copper, iron, low carbon steel and stainless, etc.

The invention relates to a method and a device for spinning and forming a magnesium alloy wheel, adopting a cylinder-shaped prefabricated roughcast. The method is characterized in that the prefabricated roughcast is arranged on a core die, a flat surface pressure device is used for flaring the prefabricated roughcast by axially moving the prefabricated roughcast, then the prefabricated roughcast and the core die rotate together and the prefabricated roughcast is spun through the radical feeding movement of a rotating spinning roller having the same outline shape as the wheel along the prefabricated roughcast, so that the prefabricated roughcast is subjected to continuous partial plastic deformation along the radial direction, and finally a needed outline of the magnesium alloy wheel is formed. Furthermore, the device comprises a stand and a core die, wherein the stand is in a box shape and is a consistent temperature oil tank, and the box-shaped stand is internally provided with a spinning roller device, a core die rotating device, the flat surface pressure device and a tank cover. In addition, the invention solves the problems of the forming and the demoulding of a similar part of a wheel which is small at both ends and big in the middle, and has the advantages of consistent temperature extrusion, higher dimension precision of products, enhanced production efficiency, and the like.

An extrusion molding method of an extrusion press includes a first step of loading a billet, the outer surface of which is subjected to a barking treatment, into a container, and extruding the billet in such a manner as to leave a predetermined length, a second step of loading a next billet into the container, additionally extruding the preceding billet with the succeeding billet in such a manner as to leave a predetermined length of the succeeding billet; and a third step of loading a next billet into the container and additionally extruding the preceding billet with the succeeding billet in such a manner as to leave a predetermined discard length of the succeeding billet and stopping extrusion. By way of these steps, the container does not move while maintaining contact with a die, and the billet is continuously extruded by leftover and additional extrusion.

The present invention provides an extrusion press which eliminates unevenness of dynamic and thermal fatigue degrees of the hydraulic devices which form the hydraulic circuit in the extrusion press, the electric Motors which drive the hydraulic pump, the control devices, etc., which makes the dynamic and thermal fatigue degrees and remaining service lives of the component devices even, and which is excellent in energy saving effect.

An extrusion press which has a plurality of variable capacity type hydraulic pumps connected to it in parallel for supplying working oil to hydraulic cylinders of the extrusion press, uses a preset working speed as the basis to find the required discharge rate of the hydraulic pumps, and selectively controls the drive operations of the hydraulic pumps, wherein the order of selection of the hydraulic pumps which are selectively controlled in drive operation is controlled by a program which progressively advances when a predetermined number of molding cycles are completed.

The invention relates to semitrailer integral axle tube extrusion moulding equipment, comprising a hydraulic machine and an intermediate frequency heating furnace, wherein the two ends of the rack of the hydraulic machine are respectively provided with a first slide seat and a second slide seat, the first slide seat is connected with a first cylinder of the hydraulic machine, the second slide seat is connected with a second cylinder of the hydraulic machine, and the first and second slide seats are provided with mould replacing wheel discs; and the top of the rack of the hydraulic machine is also provided with a clamping device for an axle tube. The axle tube extrusion moulding equipment provided by the invention has high production efficiency and has the advantages of high product processing accuracy, good integral mechanical property and stable product quality compared with the traditional hot spinning process. A steel pipe blank is directly moulded at axle heads at the two ends in an extruding way by virtue of the hydraulic machine, and various welding defects existing in subsection moulding are avoided, thus the bearing capacity of a car axle is greatly improved.

A rear-window roller blind assembly for motor vehicles in which the roller blind is movable out of a pull-out slit to an extended position through movement of a pull-out element on a free edge thereof. The pull-out element includes a center piece and relatively movable end pieces shaped so that when the pull-out element is in a retracted position the pull-out slit is covered over its entire length by the pull-out element.

There is disclosed an aluminum alloy extruded material for structural members of automotive bodies, which is composed of an aluminum alloy containing more than 2.6 wt % but 4.0 wt % or less of Si and more than 0.3 wt % but 1.5 wt % or less of Mg, further, (i) containing Mn, Zn, Cu, and Fe each in a given amount, or (ii) containing Zn, Cu, and Fe each in a given amount and containing at least one selected from among Mn, Cr, Zr, and V in a given amount, and the balance being made of Al and unavoidable impurities, which material has a given conductivity and a given melting start temperature. There is also disclosed a method for producing the extruded material, in which after an aluminum alloy ingot of the above composition is subjected to a homogenizing treatment at given conditions, it is cooled, heated again, and subjected to hot extrusion at given conditions. The extruded material is excellent in spot weldability and surface treatment property, such as the chemical conversion property and degreasing property, and it has high mechanical strength and ductility, and is excellent in impact absorbability and/or bendability.

An equal channel angular extrusion tool comprising a punch assembly, a die set assembly, a base assembly, and a bottom slider assembly. The punch assembly comprises a punch, a punch nose, and a punch trolley. The die set assembly comprises an inlet channel and a removable core. The base assembly comprises a lifting mechanism which further comprises a die lift cylinder and a hold down ram. The bottom slider assembly comprises an ejection ram. The tool also includes a billet. The billet may be disposed in the bottom slider assembly. Severe plastic deformation is applied to the billet in the bottom slider assembly.

The present invention relates to shaped section extruding apparatus, and is especially one kind of combined continuous extruder cavity. The cavity consists of panel including sealing plane and feeding port, bottom plate, material stoppers as independent parts embedded to the cavity, and mold. The cavity in the combined structure with embedded material stoppers may have material stoppers of different material for greatly raised load bearing capacity and may have the damaged material stopper replaced without need of replacing the whole cavity. The cavity bottom plate is so designed that mold may be installed, and this can lower the height of the cavity obviously and saving material for the cavity.

The invention discloses a method for extruding and forming a stainless steel three-way joint, comprising the following steps of: 1), preparing a stainless steel tube billet (1), surface of which is wrapped by a layer of plastic film (9); 2), extruding and forming the stainless steel tube billet (1) so as to obtain a semi-finished product of the three-way joint, wherein a liquid filling medium in a liquid filling system in a tube is emulsion formed by modulating emulsified oil and water; and 3), performing solid solution treatment, surface grinding and groove processing of the semi-finished product of the three-way joint. According to the method for extruding and forming the stainless steel three-way joint disclosed by the invention, the emulsion is ingeniously used as the liquid filling medium; energy-saving and environmental protection requests can be satisfied; the three-way joint extruded and formed by the invention is cleaned easily; the emulsion of the liquid filling medium in the tube can be recycled; stainless steel metal tee joints and the environment cannot be polluted; furthermore, a layer of plastic film is ingeniously wrapped on the stainless steel tube billet in advance; the surface of the formed three-way joint can be effectively prevented from generating defects; and the processing quality of the three-way joint is obviously improved.

The invention relates to a method for processing a camshaft spline of an automotive brake and a device therefor. The device comprises a squeeze roller I, a squeeze roller II, a squeeze roller base, a limit device, an adjusting device, a driving mechanism, a squeeze roller position adjusting mechanism, a frame and a wear-resisting bearing, wherein the squeeze roller base is provided with the limit device and the adjusting device and is also provided with the squeeze roller position adjusting mechanism; the squeeze roller I and the squeeze roller II are connected with the driving mechanism; and the squeeze roller base, the driving mechanism and the wear-resisting bearing are arranged on the frame. By adopting the two squeeze rollers for rolling, the tooth shape of the processed spline is consistent, and the surface density degree after processing is obviously strengthened, thereby greatly improving the quality of the processed product. As the blank is preheated before extrusion processing, the extrusion is carried out under certain temperature, so that the extrusion is easy, and the performance of the processed product is reliable. The extrusion process is adopted for processing, so as to improve the working efficiency greatly.

The invention discloses a designing method for a cross wedge rolling mould of a conical surface stepped shaft part. The designing method comprises the following steps of: 1, designing a structure of the cross wedge rolling mould, wherein the cross wedge rolling mould consists of four parts, namely a wedge section with the length being L, a first widening section with the length being L1, a second widening section with the length being L2 and a shaping section with the length being L3, and the four parts are connected integrally on a template; and the first widening section, the second widening section and the shaping section have the same thickness, and the thickness is equal to a wedge top height (h) of the wedging section; 2, designing the wedging section with the length being L, wherein L=hcot(alpha)cot(beta), h=r1-r0+delta; 3, designing the first widening section with the length being L1, wherein L1=ecot(beta); 4, designing the second widening section with the length being L2, wherein L2=(L1-e)cot(beta); and 5, designing the shaping section with the length being L3.

The invention provides a rifled tube extruding method and belongs to the technical field of continuous extrusion. A metal rod is sent into a die cavity of a tangential continuous extruding machine and enters the die cavity (shown as the arrow in the abstract figure) from a feeding port formed by an extruding wheel groove and a pinch roller to fill a toothed slot of a threaded core mark, a rifled tube in thread mesh with the threaded core mark is welded to drive subsequent continuous feeding and wrap the threaded core mark along with rotation of the pinch roller, a driving device drives the threaded core mark to move circularly, the rifled tube moves axially along the threaded core mark, the movement trail after the axial movement of the rifled tube and the circular movement of the threaded core mark are overlapped forms a helical toothed groove spatially, and a thread is formed on the inner surface of the rifled tube, so that the rifled tube is obtained. Using the method and equipment used with the method can produce products of rifled tubes made of various metal alloys, wherein the rifled tubes include aluminum rifled tubes with special tooth shapes, such as aluminum rifled tubes with high and low teeth and sawtoothed aluminum rifled tubes. Further, the rifled tube extruding method is simple in operation, high in automation level and easy for organization of massive production.

A prestressed wire winding recipient can be applied to hot metal extruding technology, and particularly can be applied to the hot extrusion of seamless steel tubes with large caliber and thick walls. The recipient comprises an inner liner, a middle liner, a thermal insulation layer, an outer liner and a steel wire layer, wherein a hearing rod hole is arranged in the middle liner, and a heating element is arranged in the hole and is used for preheating the recipient; the thermal insulation layer is arranged between the middle liner and the outer liner, consists of an inner protective plate od the thermal insulation layer, a thermal insulation material and an outer protective plate of the thermal insulation layer, and is used for preventing heat from being transmitted to the outer liner and the steel wire layer from the inner liner and the middle liner which are in high temperature; an annular cooling groove is arranged on the inner surface of the outer liner and is used for cooling the outer liner by leading cooling media in; and the temperature near a contact interface between the steel wire layer and the outer liner is detected in real time by a temperature sensor. As the middle liner is provided with a preheating hole to preheat the recipient, a preheating temperature field which is more uniform on the radial and circumference directions can be obtained by the recipient, and the reasonable stress distribution in the recipient can be realized, so that the fatigue life of the recipient can be prolonged greatly.

The invention discloses a machining method of an extrusion die. The machining method includes the following steps of S1, pre-treatment, S2, CNC rough milling including rough milling of an upper die and rough milling of a lower die, S3, heat treatment, S4, CNC finish milling including finish milling of the upper die and finish milling of the lower die, S5, surface grinding, S6, grinding adopting asand paper to grind the rough surface of a flow dividing hole to be smooth for reducing the action of the friction force between the flow dividing hole and an aluminum rod during extrusion of aluminumprofiles, S7, polishing, S8, tool grinding, S9, fine turning and S10, inspection and storage. According to the machining method, the production cycle of the extrusion die is greatly shortened, and the processing efficiency is improved.

The invention discloses a process that a copper section bar with multi holes is extruded by a servo-actuated combined needle and a device of the process. A conventional double-acting forward extruder is used to extrude the copper section bar with double holes, the servo-actuated combined needle is arranged on a support of a hole forming needle, a combined needle stand is connected with the support of the hole forming needle, the front end flat surface of the combined needle stand is provided with a T-shaped slot, two core rods with T-shaped heads are arranged in the T-shaped slot, the length of the combined needle is equal to the length of an original hole forming needle, a guiding hole whose diameter is 0.7mm bigger than the diameter of a core rod is opened on a position which is on an extruding pat and corresponded with the combined needle, and two holes whose bore diameters are 2mm bigger than the diameter of the core rod are pre-traversed on a copper blank ingot. The copper blank ingot and the extruding pat are propelled into an extruding cylinder through an extruding shaft, the support of the hole forming needle is propelled forwards, the servo-actuated combined needle is propelled forwards, and a double-core rod is traversed through the guiding hole of the extruding pat, entered into a hole of the copper blank ingot, and entered forwards a position which exceeds a sizing belt of an extruding die for10mm. The double-core rod and an outer die are formed together into a deformed space, the copper blank ingot is extruded by the extruding shaft to propel forwards, the servo-actuated combined needle is propelled forwards in servo-actuation, the copper blank ingot is passed through a space which is formed by the outer die and the double-core rod, and the section bar with the double holes is extruded out.

The invention relates to a continuous casting-rolling and extrusion molding device of Al-Mg-Cu alloy and composite materials, solving the problem that the traditional machining and molding device of Al-Mg alloy and the composite materials has lower performance of section bars due to the structural imperfection. A driven shaft is arranged on a stand, a casting roller is arranged on the driven shaft, the roller surface at the lower part of the casting roller is in transitional fit with the upper surfaces of a squeezing seat and a groove sealing block, a crystallizer is arranged above the casting roller and an extruding roller, a crystallizing hole is arranged on the crystallizer, the lower end of the crystallizing hole is positioned above the contact part between the casting roller and the extruding roller, the lower surface of the crystallizer is in transitional fit with the roller surfaces of the casting roller and the extruding roller, and a rotatable driving mechanism is respectively arranged on a driving shaft and the driven shaft. The invention greatly improves the performance of the section bars by additionally arranging the casting roller and the crystallizer, ensures that the section bars are possible to be made to meet the requirements for high-precision thin walls with ultra thinness and ultra length and simultaneously has the advantages of simple structure, convenient operation and low cost.

The invention relates to a method for compressing metal. Wherein, in the groove of compressing wheel or at the material inlet of chamber, the blank is extended to be 10mm wider than the groove width of compressing wheel; then feeding the blank into material inlet, to be compressed via mould into needed product. The invention has simple process, to obtain better shape when compressing color metal wire or round rod, and obtain accurate size, to reduce the pressure and temperature of mould. And it can improve the rotation speed of compressing wheel and improve the yield.

An extrusion press comprising a pressure ring (6) having a convex shape rear base (62) resting in a seat (71) of a platen (7). The convex shape is either spherical or truncated cone shaped so as to relieve onto the platen (7) the greatest amount of extrusion pressure exerted on the front face (61) of the pressure ring (6) of the die pack (3). This limits the deformation on the front base (61) and consequently the geometric variations of the extruded profile (5).