DE1291863B - Process for the production of metallic castings in metallic cast molds in a running series of successive castings - Google Patents

Description

The invention relates to a method for producing metallic ones Castings in metallic cast molds in a running row one after the other Castings, the casting of any cast of this series being the casting is the same as any other cast in the same series.

Castings made of low-melting metals such as aluminum, magnesium and zinc, are made by die casting in permanent metal molds, and more recently brass has also been cast in this way with some success. The molds intended for die casting of low-melting metals exist usually made of steel or cast iron, and their inner surfaces are machined Processing given the desired shape; sometimes the molds also exist made of aluminium. The casting of low-melting metals is done by die casting. When cores are required, they are usually made of metal, and either as permanent cores or only for single use. So are from the German Patent 817 492 casting cores, in particular for permanent molds to be cast Articles, known, made of a fusible material with a lower melting point exist as the cast material, which is in coordination with the casting temperature and the other Thermal properties of the casting material, such as specific heat and heat transfer or heat content, selected according to a thick or thin-walled casting will that its transition to the molten state occurs when the casting through the heat emission has already assumed a sufficiently stable state Has. This is particularly advantageous when the cavity produced by the core has such a shape that the core does not emerge intact from the finished casting pull out. For the metallic casting mold it was previously used for the technical one Generation considered essential that it is permanent in the sense that it is responsible for several casts is suitable.

The service life of a metallic permanent casting mold ends as soon as it is no longer able to accurately reproduce the castings for which it was built to create. Since the casting mold is exposed to the action of the cast in it every time it is used Metal is exposed and not only dissipate the heat of the casting, but must also enable it to be removed from the mold intact, are factors such as oxidation, heat transfer, dimensional accuracy, differences in thermal expansion during the heat exchange and the subsequent removal of the casting, essential for the design of a metallic permanent casting mold. When pouring low-melting Metals pose such factors at the low temperatures at which these Metals are cast, no particular difficulties, and metallic permanent casting molds are commonly used for this purpose, sometimes with ceramic or similar Linings to protect their interior. However, at the much higher temperatures, where refractory metals are cast, the same factors so far means a difficulty and they pose for casting such metals in permanent molds an almost insurmountable obstacle.

Because of the advantage that precision enjoyment without expensive machining which would mean castings with the machine, one already has in foundry technology Long sought after, also the higher melting metals such as brass, bronze and the ferrous metals, to be processed by die casting. In more recent times it has been achieved some success in the casting of brass by being used as a material for the permanent casting mold a special molybdenum alloy was used; but the investment costs are very long and the mold life is quite short. Die casting too of iron alloys has not yet been carried out in a satisfactory manner will.

The USA: Patent 2,759,231 describes a method of casting of ferrous metals in aluminum molds. As a casting process in the sense of this Patent specification of the static casting applied, and the casting molds are intended as permanent casting molds be used. According to the teaching of the patent, all surfaces the mold should be anodized, the inside of the mold should have a ceramic lining and the high thermal conductivity of aluminum can be used. However this procedure has not proven itself in practice.

The invention is based on the problem of solving the difficulties discussed above, specializing in the manufacture of castings from ferrous metals and others Oppose refractory metals in metallic molds to fix. This object is achieved in that for each cast one for him each newly made casting mold is used, which by their specific Material properties and their mass have such a heat absorption capacity that they at least remains intact until the casting is due to the release of heat and solidification has assumed sufficient structural strength.

According to the method of the invention, several, identical or different castings are produced.

Preferably the castings are made by die casting.

According to a preferred embodiment of the invention, the metal recovered from the casting mold after using the same and for casting new ones Casting molds used. This enables the metal that makes up the molds be selected, taking into account the properties that are suitable for solidification of the casting to its final shape are required, and other factors such as the cost of the metal for the molds and the Relationship of its melting point to that of the metal of the castings, is negligible.

In view of the above, the method of Invention especially for the production of castings from ferrous metals or others refractory metals.

According to the invention, a metal is used as the material for the casting molds, which is indifferent to the metal from which the castings are made is e.g. B. does not form an alloy with the same. It is therefore with the procedure the invention possible, the casting molds for casting refractory metals from a relatively low-melting metal, such as aluminum, without that any part of the inner surface of the mold is subjected to a protective treatment needs to be so that the heat diffusivity of the molds can be used to the greatest extent and the metal of the molds is practically perfect recovered and used to make new molds.

Preferably the molds themselves or the mold parts are through Die-casting of a metal with a lower melting point in relation to the casting, in particular by die casting in a die.

The method of the invention can also be used for making castings made of special refractory metals such as titanium and zirconium, using under special conditions, such as a partial vacuum or an inert atmosphere will.

The casting molds can consist of several parts in a manner known per se exist to facilitate removal of the castings; but if the melting point of the metal of the mold deep enough below that of the metal for the casting is, the mold can also be made in one piece and after the casting process be melted to win the finished casting.

When the mold is surrounded by a water jacket or in another Way for the rapid dissipation of heat from the mold during die casting is, it does not depend on the mass of the mold.

Because in the method of the invention, the metal of the mold is recovered and can even be reused as a material for the casting molds Use silver if the advantage stems from its high thermal diffusivity shows that its high cost outweighs.

Casting molds are preferably used for casting ferrous metals made of aluminum or aluminum alloys, and these are preferably made by die casting made in a die made of steel, iron or even aluminum.

When considering the melting points of the metal of the mold and of the metal of the casting, the likelihood of the mold melting or the formation of intermetallic compounds at the interface between the mold and the casting exists, this can be prevented by removing the inside the mold pretreated, e.g. B. by attaching a to the metal of the Cast indifferent lining.

In the manufacture of castings by the method of the invention by die casting the castings are kept under pressure until they close have frozen in their final shape. This is done with the help of a shooting unit, with which the mold is connected via thermal insulation and its cylinder is filled with a measured amount of the casting material, whereupon the molten Metal is conveyed from the shooting cylinder into the casting mold by piston pressure. The thermal insulation of the shooting cylinder from the casting mold is of particular importance in the die casting of ferrous metals and other refractory metals.

According to the invention it is provided that the cores by their specific Material properties and their mass have such a heat absorption capacity that they at least Remain intact until the property is released from heat and solidifies has assumed sufficient structural strength. Usually the kernels exist made of the same metal as the molds; however, it may appear under certain circumstances be to make them from a different metal if it is z. B. What matters is that the cores can be easily melted out of the casting.

According to a preferred embodiment of the invention, both the molds as well as the cores are made of aluminum.

In contrast to the only previously known technical precision casting process for ferrous metals, namely the lost wax process using ceramic Casting molds, offers the application of the method according to the invention to ferrous metals, apart from the lower cost, the advantage of being cast in this way can be manufactured in a much wider range of sizes. Also supplies the process castings with an equally narrow or even closer tolerance and, as a result the high heat absorption capacity of the aluminum casting molds, better physical ones Properties than can be made in non-metallic molds. The method of the invention thereby eliminates the use of the heretofore conventional metallic permanent forms in favor of consumable ones that can only be used once metallic molds abandons the difficulties encountered in building metallic Permanent forms occur and on factors such as oxidation, heat transfer, dimensional accuracy, Differences in thermal expansion and removal of the castings are based and, except in the case of brass, the die-casting of refractory metals have opposed by die casting on an industrial scale so far.

Claims (6)

Claims: 1. Process for the production of metallic castings in metallic, cast molds in a running series of successive ones Castings, the casting of any cast of this series being the casting resembles any other cast of the same series, characterized by: that a new casting mold is used for each cast, which have such a heat absorption capacity due to their specific material properties and their mass has that it remains intact until the casting passes through Heat release and solidification has assumed sufficient structural strength. 2. Method according to claim 1, characterized in that with each casting several, castings that are the same or different from one another are produced. 3. Procedure according to claim 1 or 2, characterized in that the castings are die-cast getting produced. 4. The method according to claim 1 to 3, characterized in that that the metal of the casting mold is recovered after the use of the same. 5. Method according to Claims 1 to 4, characterized in that the castings are made from one Ferrous metal or another refractory metal can be produced. 6. The method according to claim 1 to 5, characterized in that the casting molds or the casting mold parts are produced by die casting a lower melting metal in relation to the casting, 7. The method according to claim 6, characterized in that the casting molds or the casting mold parts by die casting in a die. B. The method according to claim 3 to 7, characterized in that the recovered metal of the casting molds is used for die casting of new casting molds. 9. The method according to claim 3 to 8, characterized in that the castings are kept under pressure until they are solidified to their final shape, 10. The method according to claim 1 to 9, characterized in that the molds from one opposite the , Metal of the castings made indifferent metal and used for casting without protective treatment of any part of their inner surface. 11. The method according to claim 1 to 10, characterized in that the cores by their specific physical properties and their mass have such a heat absorption capacity that they remain intact at least until the casting has assumed sufficient structural strength through heat release and solidification. 12. The method according to claim 11, characterized in that the core is made of the same metal as the casting mold. 13. The method according to claim 1 to 12, characterized in that the finished casting mold is connected to a shooting unit via thermal insulation and the shooting cylinder is filled with the refractory metal, whereupon the metal is conveyed by piston pressure from the cylinder into the casting mold. 14. The method according to claim 1 to 13, characterized in that the casting molds and optionally the cores for casting ferrous metal are made from aluminum.