Metal deforming – By application of fluent medium – or energy field – Using fixed die
Reexamination Certificate
2000-08-29
2002-02-26
Jones, David (Department: 3725)
Metal deforming
By application of fluent medium, or energy field
Using fixed die
C072S342700, C072S342940, C029S421100
Reexamination Certificate
active
06349583
ABSTRACT:
BACKGROUND OF THE INVENTION
1. Field of the Invention
The invention relates to a method of forming a hollow, especially tubular, workpiece by inner pressure within a closed forming tool. Such a method is known in connection with the material steel as well as in connection with nonferrous metals. The pressure fluid introduced into the workpiece is, in general, water or a water emulsion. The forming of the workpiece is carried out at room temperature.
2. Description of the Related Art
A disadvantage of the known prior art method is that the change in shape of the metallic materials in connection with complex forming steps is possible only with a high technical expenditure. Especially in the case of materials with a minimal plastic extension, for example, in the case of aluminum, several intermediate annealing steps are a necessity. Each intermediate annealing step, however, affects the metallic microstructure. Moreover, in the case of metallic materials such as aluminum, which do not undergo a microstructural transformation, the intermediate annealing entails the risk of making the material brittle. The proper function of the material during further practical use can therefore be significantly impacted.
From EP 0 785 036 A1 it is known to introduce hot sand into a workpiece and to then form the workpiece. In this context, the workpiece as well as the forming tool are heated before forming. During the forming step the temperature of the forming tool and of the workpiece is maintained.
However, the inner pressure forming by means of sand requires special handling. Small radii can be obtained only with considerable expenditure, if at all. Moreover, a one-sided forming, for example, forming a dome portion, can be performed only with difficulty. Also, there are considerable problems in regard to sealing as well as with respect to the service life of the forming tool. In principle, a high-quality standard for the inner surfaces cannot be achieved when using sand. This circumstance also results in an extremely high, cost-intensive expenditure which makes the economic efficiency of the known method questionable.
SUMMARY OF THE INVENTION
It is an object of the present invention to provide a method and a device for forming a hollow metallic workpiece by inner pressure with which a high inner and outer surface quality can be obtained with minimal inner pressures and forming forces and a considerably reduced apparatus expenditure.
In accordance with the present invention, this is achieved in connection with the method in that, for forming a hollow metallic workpiece having open ends by inner pressure in a forming mold of a multi-part forming tool, the workpiece is placed into the preheated open forming tool and, subsequently, closing plugs as components of the closing cylinders are sealingly inserted into the open ends and the forming tool is closed, whereupon a heated pressure fluid is introduced into the now heated and plasticized workpiece at least via one closing plug and the material of the workpiece is pressed into the forming mold in the forming tool under the effect of the pressure fluid.
It has been recognized with the invention that, by heating the workpiece to be formed and by heating the forming tool, a significant increase of the change in shape of the workpiece with simultaneous significant reduction of the forming forces can be achieved. For this purpose, the temperatures are expediently adjusted such that over the entire forming mold in the forming tool a uniform temperature profile is ensured. A further advantage of the invention is seen in that the closing forces for the forming tool as well as the closing forces at the ends of the workpiece can be significantly reduced. Also, the tool can be designed overall in a much simpler configuration.
The heating of the pressure fluid can be carried out outside of the forming tool. In general, however, the heating of the forming tool is sufficient in order to heat the pressure fluid to the required operating temperature when the pressure fluid is guided into the workpiece through corresponding channels provided in the forming tool.
The temperature which is required for facilitating forming of the workpiece can also be realized by heating the forming tool. An advantageous embodiment, especially for mass production, is realized in that the workpiece, before being placed into the forming tool, is heated to the expedient forming temperature.
The heating of the workpiece can be carried out in different ways. It is advantageous to heat the workpiece to the required temperature in a furnace external to the forming tool.
The forming process can be a simple widening of the workpiece in the closed forming tool or can be coupled with an additional movement of at least one of the closing plugs. This method is used especially in regard to complex configurations, for example, when over the length of the workpiece a lateral shaping in the form of a so-called dome is to generated and material must be pushed to this location. Moreover, the forming tool is provided with at least one further axially displaceable counter force in the form of a hydraulically actuated counter holding plunger in the area of this dome.
Even though the pressure fluid can be a weakly reactive oil, a gaseous pressure fluid whose chemical composition is adjusted such that no oxidation on the inner surface of the workpiece will result should be more expedient according to the invention. In this connection, the use of nitrogen as a pressure fluid is considered to be especially economically efficient. Nitrogen does not cause any chemical change of the material of the workpiece and also does not adhere to the inner surface of the workpiece. Furthermore, the pressure fluid nitrogen, especially in the form of pure nitrogen, which is inert in the temperature range in question, represents an especially advantageous embodiment.
Optionally, a mixed gas of nitrogen and argon or helium can be used.
According to a further method variant, the pressure fluid is pure air.
The desired plasticity of the workpiece for reducing the inner pressure in the workpiece as well as the forming forces is achieved in a temperature range of between 200° C. to 400° C. In this temperature range inner pressures of a magnitude of 150 bar to 500 bar are sufficient. Higher inner pressures can be used in this connection when the workpieces to be shaped have an especially great wall thickness.
Preferred is the forming of the workpiece in a temperature range between 250° C. and 350° C. The inner pressures preferred in this temperature range are then between 180 bar and 250 bar.
It is especially advantageous in the context of the invention when a workpiece made of aluminum or of an aluminum alloy is formed in accordance with the inventive method. This is so because in the case of aluminum the shape changing ability increases with increasing temperature to a certain degree before recrystallization occurs. At the same time, the plasticity limit is lowered to a smaller stress value. In this context, it is of special economic interest that an intermediate annealing of a workpiece made of aluminum can be completely eliminated, especially when a workpiece that is already at least partially formed is to be formed further. After a pre-forming step there is no need for maintaining the workpiece at the annealing temperature for several hours in order to return the material again to a plasticizable state.
In accordance with the present invention, the object of the invention with regard to the device is achieved in that the device, for forming a hollow metallic workpiece with open ends by inner pressure, comprises a multi-part forming tool with a forming mold for the workpiece and closing plugs, as a component of hydraulically actuatable closing cylinders, movable into the open ends, wherein the forming tool is heatable at least with respect to the forming mold and in which, via at least one of the closing plugs, a heated pressure fluid can be introduced into the optionally pre-heated workpiece.
Based on these features, the req
Grussmann Elmar
Kleinschmidt Jürgen
Töpker Dieter
Benteler AG
Jones David
Kueffner Friedrich
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