DE102005050481A1 - Aluminum-based alloy composition and method for manufacturing extruded components from aluminum-based alloy compositions - Google Patents

Abstract

The invention relates to an aluminum-based alloy composition for vehicle components. The composition consists essentially of about 0.15 to 0.6 weight percent silicon to induce recrystallization, about 0.2 to 0.7 weight percent iron, about 0.4 to 0.6 weight percent. Copper, about 1.1 to 1.4 wt% manganese, about 0.15 to 0.3 wt% magnesium, about 0.15 to 0.4 wt% zinc, about 0.1 to 0 15% by weight of zirconium; Remaining amount of aluminum.

Description

Background of the invention

The This invention relates to aluminum alloy compositions and methods of manufacturing extruded components from aluminum alloy compositions through conformal extrusion.

Extrusion processes have been common practice in various industries for several years for the Hot forming of aluminum alloys. The extrusion of aluminum is called as one of the most versatile known processes. His many Applications in everyday life Use prove the versatile application of both the process as well as the metal.

The conventional extrusion that concludes to water of the material in long blocks, the removal from the mold and cutting in stick lengths each between about 24 inches (609.6 mm) and 36 inches (914.4 mm). The stick will be afterwards called a homogenization annealing heating process subjected. In the homogenization process, the non-aluminum elements become the stick solved and in desired discrete Structures brought with the aluminum. For the purpose of making a Aluminum extrusion profile is a cylindrical block preheated to a temperature of about 450 ° C and with a high pressure of up to 850 MPa through a molded opening in one Die made of hardened Pressed steel.

The resulting shapes and lengths of an aluminum alloy semi-finished product with a constant cross-section can be full or hollow (with cavities), simple or extraordinary be complex. Furthermore these forms have all the for Forged products awaited desired Features including a corresponding metallurgical structure, the transforming or machined or welded. With the conventional extrusion process can the production of highly complicated molds, the production of High accuracy molds, the creation of hinge features for mobile Assemblies, producing with minimal mounting effort mountable forms, the realization of a mold in one piece instead made of several parts to be assembled as well as providing local Strength and rigidity can be achieved.

Even though the present ones conventional extrusion processes could be useful Improvements are made. For example, a typical Extrusion device / Supermarket a considerable one area of about 6 ft (1.83 m) by 30 ft (9.14 m). Also required a conventional extrusion process the cutting of the respective billet length a measure between about 24 in (609.6 mm) and 36 in (914.4 mm) and preheating the stick to about 400 ° C, resulting in a relatively high expenditure of time and energy. Furthermore requires the system for every one of the extrusion process supplied stick a break.

Short Summary the invention

The Invention generally provides an alloy composition for improved corrosion resistance and reduction of wear the nozzle in their use leads. This result is achieved by fixed amounts of copper in order to improve the corrosion resistance of zirconium in order to Improvement of the grain size after a brazing process, of manganese in order to increase strength and to reduce grain growth to the alloy be mixed. Furthermore leads the Addition of a predetermined balanced proportion of zinc, magnesium and Silicon to the alloy to form a relatively large number of grains with small grain size after the brazing process. The invention concludes an aluminum-based alloy composition for vehicle components, such as B. vehicle heat exchanger tubes, one. The composition consists essentially of about 0.15 to 0.6% by weight of silicon to induce recrystallization, about 0.2 to 0.7 wt% iron, about 0.4 to 0.6 wt% copper, about 1.1 to 1.4 wt% manganese, about 0.15 to 0.3 Wt% magnesium, about 0.15-0.4 wt% zinc, about 0.1-0.15 Wt% zirconium; Remaining amount of aluminum.

In In another embodiment, the invention comprises a conformal extrusion molding process for an aluminum-based Heat exchanger tube. The method comprises pressing the aluminum-based alloy composition and forming a moldable alloy composition into a specified one Configuration of the aluminum-based heat exchanger tube.

In yet another aspect of the invention, the method comprises embossing the aluminum-based alloy composition to shear-shape the alloy composition and shear-transform the composition to preheat the aluminum-based alloy composition so that the moldable alloy forms to provide the malleability of the alloy composition. The method also includes propelling the moldable alloy composition and pressing the moldable alloy composition through a nozzle into a fixed configuration of the aluminum-based heat exchanger tube.

Further Objects, features and advantages of the invention are after examining the subsequent description and the appended claims with the associated Drawings easily recognizable.

Brief description of the drawings

1 Figure 13 is a table showing an aluminum-based alloy composition for vehicle components according to one aspect of the invention.

2 FIG. 12 is a system diagram of a conform extrusion process for extrusion molding the aluminum-based alloy composition according to an example of the invention. FIG.

3A FIG. 10 is a schematic diagram of a conform extrusion process for extrusion molding the aluminum-based alloy composition to form an aluminum-based heat exchanger tube. FIG.

3B is an enlarged view of the circle 3B in 3A the conformal extrusion process.

4 FIG. 10 is a flowchart showing a method of conforming extrusion of an aluminum-based heat exchanger tube according to an example of the invention. FIG.

Detailed description of the invention

The Embodiments of the invention provide an aluminum-based alloy composition and a method for producing components, such as. B. heat exchanger tube, prepared from the aluminum-based alloy composition. The Invention offers a solution in terms of apparatus size and the Efficiency, while maximizes recrystallization and grain growth of the composition is minimized.

Generally For example, the composition comprises admixed silicon for one reduced nozzle wear, for increasing the Nozzle life and for minimal Grain growth. The recrystallization of the composition is also by maximizes the use of copper, magnesium and zinc. The grain growth The composition is characterized by the use of zirconium, chromium and Manganese minimized. Furthermore It is preferred that the weight percentage of silicon is relatively low, that is between 0.15 and 0.3 wt .-%, to to promote the recrystallization. Also understands itself, that in the composition no titanium or chrome to minimize the nozzle wear included is.

1 Figure 13 is a table illustrating the elements forming the aluminum-based alloy composition according to an embodiment of the invention. As shown, the aluminum-based alloy composition contains silicon (Si), iron (Fe), copper (Cu), manganese (Mn), magnesium (Mg), zinc (Zn) and zirconium (Zr). The aluminum-based alloy composition preferably consists essentially of 0.15 to 0.6 wt% Si, 0.2 to 0.7 wt% Fe, 0.4 to 0.6 wt% Cu, 1.1 to 1.4% by weight of Mn, 0.15 to 0.30% by weight of Mg, 0.15 to 0.40% by weight of Zn and 0.10 to 0.15% by weight of Zr.

regardless theoretical considerations It is believed that copper, magnesium, zinc and silicon recrystallize promote the alloy composition and zirconium, chromium and manganese grain growth of the alloy composition minimize.

In In this embodiment, the alloy composition can be extruded to form vehicle components used in the manufacture of air-conditioning products, such as B. heat exchanger tubes, are suitable. It was discovered that the alloy composition, when in a conform extrusion process was extruded, the ability has the grain size for a suitable application to restrict. Furthermore It has been discovered that the composition has the ability to increase Corrosion resistance of the final product has, resulting in extends the life of the product.

2 represents a system diagram 110 This is a normal process line for conformal extrusion presses for the production of aluminum-based heat exchanger tubes from that shown in the table in 1 aluminum-based alloy composition provided. According to an embodiment of the invention, the system comprises a raw material unwinding unit 112 , The raw material unwinding unit 112 picks up the starting alloy composition which is poured into 9.5 mm to 12 mm thick stock rods in this unit. The stock rods are then placed in a stock dressing unit 114 drawn. In this embodiment, the raw material unwinding unit 112 and the raw material straightening unit 114 no driven units, since a (hereinafter mentioned) downstream Conform machine sufficient power for pulling the starting material rod through the Aus has material units.

To rid the raw material rods of oxide, oil, grease and other contaminants, the rods are passed through a feedstock purification system 116 guided. This system can be any suitable system, such. An ultrasound system or a parorbital system. As known in the art, the principle of the parorbital system is a combined mechanical and chemical cleaning process.

To the For example, the parorbital system may include a plurality of cleaning heads, wherein each cleaning head inlet and outlet air brushes for Preventing the escape of cleaning fluid and a variety of hydroconverters for execution contains the cleaning. In this example, each hydroconverter can use two tungsten carbide nozzles slight larger diameter as the starting material bar. A high-speed jet of the cleaning fluid can then in the cleaning converter in a be injected in such a way that around the starting material rod forming a vortex. The vortex of the fluid causes the starting material rod revolving at high speed and the surface the rod rubs against the tungsten carbide nozzles.

The alloy composition material is then embossed so that it can be introduced into the Conform extrusion press. As in 2 illustrated, the system includes 110 also a conforming process system 118 , As described in more detail below, the conforming process includes a conforming machine that includes a grooved wheel and shaft assembly. In the Conform extrusion press, the composition is forced through a nozzle apparatus and formed into a final shape of a tube exiting the machine.

The Conform line can be controlled by a computer system that with one desired to provide the (listed below) Features configured software is equipped. For example can these are the following features: measurement and recording of operating parameters, such as Temperature, speeds and machine loads; tabular display of the primary, secondary and control parameters; graphical display on a second timebase of any four primary Parameters over the past 24 hours; graphical display on a 1/10-second time base of any four control parameters; File record of primary, secondary and control parameters; Playback of the recorded files; Control of the dynamic Systems, such as. B. heating and warning devices; Calibration of system inputs and -outputs as well as setup and calibration of the control loops. Other Features can be included without departing from the scope or spirit of the invention is deviated.

As well as in 2 is shown cooling a cooling system 120 the tube, which is then wound up. Thereafter, the tube is cut to a specified length. No heat treatment is necessary. For example, the cooling system 120 for the extrusion press wheel and tool, consist of a storage tank with a top-mounted product cooling pan. The back of the tank may be a pumping unit containing a pump and a heat exchanger for each cooling circuit. A high throughput pump can maintain the required level and flow rate in the product refrigeration cycle. The low throughput circuits can provide cooling for the impeller and mold. Flow control valves for each of the cooling circuits may be mounted on the front of the tank, and a closed system may be used to allow the water in contact with the product and tool circuits to be softened.

It can special features of the cooling system be created to the cooling rate to control the product when leaving the die. A fast one Quenching or a lower cooling rate are possible. The supported again the regulation of the grain structure and thus the properties of the extruded component.

3A provides a schematic view of a Conform extrusion press 210 for the extrusion of an aluminum-based vehicle component, such. As a heat exchanger tube, of an aluminum-based alloy composition. According to an embodiment of the invention, the conformal extrusion molding machine comprises 210 a wheel 212 that turns to the starting material through the machine 210 to transport. The wheel 212 contains a groove formed on its circumference 214 in which the starting material is passed. The Conform extrusion press 210 Also includes a pivotally mounted or Schubumformgleitplatte on which the wheel 212 is arranged adjacent. As shown, the sliding plate cooperates 216 with the wheel 212 to form a cover on the groove 214 when the starting material passes through the groove 214 is conveyed so that the starting material is embossed. The extrusion pressure is generated by the sliding plate 216 the groove 214 covers.

The machine 210 also contains a stop 220 that is integral with the sliding plate 216 connected and to cooperate with the wheel 212 is configured. The stop 220 jams the material to be extruded. If the starting material in the groove 214 is transported, causes the attack 220 that the material is against the sliding plate 216 shear, resulting in overheating of the material and formation of a moldable alloy. The material generates frictional heat and strain heat, ie, temperatures of up to 500 ° C or more can be achieved without using a heater. If the starting material in the groove 214 is transported, the material due to the change to the thrust direction at the stop 220 and maintained in a highly plastic flow state due to the high temperature.

In addition, will while of the process recrystallizes and resides the extruded material in an "annealed" condition, as well as the source material in this embodiment has the form of wire rod, is continuous Extrusion without a stop of the machine for connecting pieces of material possible.

The machine 210 also contains an extrusion chamber 222 with a pressing nozzle 224 through which the material passes after the stop 220 is extruded. The stop 220 is shaped to move with the wheel 212 to cooperate and cause a jam of the material to be extruded, causing the material through the extrusion chamber 222 is pressed. In operation, the stopper pushes 220 the material to be advanced to the extrusion chamber 222 , The material passes through the die 224 pressed so that it is transformed into a fixed configuration of the aluminum-based heat exchanger tube. Since the metal wire is manufactured by continuous casting and rolling, it is relatively inexpensive and easy to produce a relatively large roll weighing two tons or more. In addition, as shown, the machine is configured so that a limited amount of loss material can flow away from the fence.

It It goes without saying that any suitable apparatus is used can be, according to the conforming extrusion press of the invention operable close. The Conform machine can be used, for example, in rolling bearings be included, the multiple seals for the retention of oil and Prevent the intrusion of foreign material. A separate one Pressurized and equipped with filter and cooling lubrication system Ensures that the bearings can be lubricated properly and appropriate operating temperatures are maintained. Camps can be housed in a sturdy steel frame that is larger in size so that it has the pivotally mounted sliding plate and a hydraulic Sliding plate holding system contributes. The relative positional deviations of the wheel and the tool can on be kept to a minimum, so that despite the relatively occurring high operating forces appropriate product tolerances are met. The main shaft Can be controlled by a continuously variable DC motor Gearboxes are driven. The envelope curve of the power output the drive can be at the specified or desired production speed be adjusted.

In addition, can the tool carrying, pivotally mounted sliding plate by inserted from the control panel on the machine actuated hydraulic cylinder or withdrawn become. When closed, the sliding plate in position be clamped by hydraulic cylinders. The system offers simple Start-up conditions and minimizes the risk of damage due to overload the processing of a newly included in the manufacturing program Product, since the clamping pressure can be relieved by the Solve the Sliding plate allows becomes.

4 FIG. 3 illustrates a flowchart of a method. FIG 310 of conformal extrusion of an aluminum-based heat exchanger tube according to an example of the invention. As shown, the method comprises 310 pressing an aluminum-based alloy composition consisting of the following elements to form a moldable alloy for providing the formability of the alloy:
about 0.15-0.6 wt% silicon to reduce wear of the die of the conform extrusion machine; about 0.2 to 0.7 wt% iron; about 0.4 to 0.6 wt% copper; about 1.1 to 1.4 weight percent manganese; about 0.15 to 0.3% by weight of magnesium; about 0.15-0.4% by weight of zinc; about 0.1 to 0.15 weight percent zirconium to reduce grain growth; Remaining amount of aluminum.

Preferably For example, during the "pressing" step, the temperature of the composition is between 400 ° C and 500 ° C. More preferred a temperature of about 480 ° C. In this embodiment, the step pressing comprises embossing the Aluminum-based alloy composition for the purpose of shear forming the alloy composition and shear molding of the composition for overheating the aluminum-based alloy composition, so that the malleable Alloy for the provision of the formability of the alloy is formed.

The procedure 310 also includes "forming" the moldable alloy into a fixed configuration of the aluminum-based heat exchanger tube. In this embodiment, the forming step comprises advancing the mold alloy to the extrusion molding chamber of the Conform extrusion press and pressing the moldable alloy through the die into a fixed configuration of the aluminum based heat exchanger tube.

As mentioned, becomes the pressing nozzle preferably in a pivotally mounted sliding plate in the nozzle chamber held. The nozzle chamber Hold the Stop (the stops), the (the) in the wheel groove (s) fit intervene and the flow of Alloy in the nozzle chamber into directs (steer). The nozzle chamber ensures accurate alignment of the tool and allows one Pre-assembly of the tool for fast change. In this embodiment, the nozzle chamber accommodate a wide range of product specific nozzles.

Claims (6)

Aluminum-based alloy composition for vehicle components, essentially consisting of: About 0.15 to 0.6% by weight (Wt.%) Silicon for effecting of recrystallization;  - approximately 0.2 to 0.7% by weight of iron; - approximately 0.4 to 0.6% by weight of copper; About 1.1 to 1.4% by weight of manganese; - about 0.15 up to 0.3% by weight of magnesium; - approximately 0.15-0.4% by weight of zinc to reduce grain growth; - about 0.1 to 0.15% by weight zirconium, - Remaining aluminum. A composition according to claim 1, wherein the residual amount Aluminum a ratio from manganese to iron between about 1 and 3 for high corrosion resistance and formability. A composition according to claim 1 or 2, wherein the Zinc content between 0.25 and 0.4 wt .-% is. A composition according to any one of claims 1 to 3, wherein the silicon is in the form of dimagnesium silicide. A composition according to any one of claims 1 to 4, the Vickers hardness of intermetallic compounds between about 5,000 and 10,000 lies. A composition according to any one of claims 1 to 5, wherein the grain size of the composition less than about 60 μm is.