DE378523C - Process for casting magnesium and its alloys in metal molds - Google Patents

Description

Process for casting magnesium and its alloys in a-metal molds. In order to produce particularly good aluminum castings in forms of iron or other metals Achieve, has been proposed (Patent 3104o4), the form with a coating made of aluminum or aluminum oxide and they are to be provided before pouring the aluminum to be heated to its melting temperature. Without the coating, aluminum can be used in Do not pour heated metal molds as the metal will then stick to the mold.

It has now been found that magnesium, which is present in metal molds In contrast to aluminum, up to now it could not be cast at all, in highly heated Molds can be poured without it starting to burn in it, as one should expect. Casting magnesium in cold or lukewarm metal molds is therefore impossible. because the metal solidifies as soon as it is poured into the mold and does not fill it. If the magnesium is overheated to prevent rapid solidification, it will thicker, starts to burn easily and absorbs atmospheric nitrogen ..

As tests have shown, a connection occurs with the heated metal mold with the liquid magnesium metal neither without application of the coating nor with application same one.

The heating that takes place before the molten metal is poured in the shape almost to its melting temperature has the consequence that no overheating of the melting material to be made 'needs and yet the form is well filled will. This also causes an ignition of the metal and an uptake of atmospheric nitrogen avoided. Compared to sand casting, which was previously only possible, a smoother and A purer cast skin is achieved, which is precisely the case with magnesium because it is easier to destroy is valuable due to atmospheric influences, acids, etc.

Instead of a coating made of aluminum or aluminum oxide, it is also possible one made of magnesium oxide or some other mass can be used, which an association of the molten metal with the heated metal form and strong Prevents the mold from oxidizing when heated. The application of the aluminum coating. Aluminum oxide or the like: happens, for example, in the manner known for aluminum in that the surfaces of the form that come into contact with your metal are coated with aluminum lacquer bronze coated and the form then heated to about red heat to burn out the paint will.

Heating the mold to about the melting temperature of the one to be filled Magnesium metal can be done in a furnace, but it is also advantageous that the mold is immersed in the melting metal or the same before that. Metal in the crucible begins to become liquid in this one. With special Advantageously, the heating of the mold can be effected by being in the mold itself melts. In this case there is no overturning of the Mak # gnesiums from the crucible to the mold more required, which is all the more advantageous than just pouring the magnesium out of the crucible into the mold, the same is easy starts to burn.

Claims (1)

PATENT CLAIMS: i. Method of casting magnesium and its Alloys in metal molds, characterized in that the metal molds before Filling the molten metal is heated almost to its melting temperature will. a. Method according to claim i, characterized in that the shapes in the way known from aluminum with a coating of aluminum, aluminum oxide o. The like. Be provided. 3. The method according to claim i, characterized in that the mold is heated by melting the metal in the mold.