DE383944C - Process for preventing metallic cast bodies from sticking to their mold - Google Patents

Description

Method of preventing metallic castings from adhering to them Casting mold. It is a well-known fact that the casting of metal in cold, metallic casting molds into hard, brittle castings and that Metal solidifies quickly. The castings therefore often burn and correspond up to the flattest of the mold not exactly.

Attempts have been made to prevent the castings from sticking to the mold to avoid that the surfaces of the form with different masses, such as. B. asphalt, Graphite, lamp black, aluminum paint and similar coatings. A The disadvantage of such surface coatings is, for example, that the coating .beim Extract even the simplest castings from the protruding parts of the mold is rubbed off, so that the liquid metal with repeated use of the mold in a short time parts of this mold will wear out and in this way the reusability the mold will make impossible. Another drawback is that some of the the substances previously used as a coating do not adhere well to the casting mold, if these come to the high degrees of heat necessary to produce softer and more perfect Castings are required.

It has now been proposed that the adhesion of castings in to prevent the form by @ that there is a gaseous one between the casting and the form Form a protective layer. In contrast, the essence of the invention consists in that this protective layer is produced from a metal-containing substance. This kind of Execution of the method offers certain technical advantages. The metals or Metal mixtures can be completely or completely with the substance of which the casting mold is made partially alloy. One has it also further in hand, the nature of the metal or to match the metal mixture to the nature of the metal to be melted by adding a Selects metal mixture that becomes gaseous at a temperature below that Melting point of the metal to be melted is so that you can, for example, for Cast metal of low melting point uses gas-forming substances that have a relatively have low boiling points, while for casts of higher melting point, like for example iron, will choose higher-boiling substances. The protective mass needs furthermore not to be removed or damaged. Their effectiveness can neither through the heat of the mold from the touch and flow of the molten metal are adversely affected.

The presence of certain metal-containing gases or vapors Substances in the cavity of the casting mold or on its wall surfaces create a protective jacket of gas or steam between: the mold and the cast body as soon as the molten metal comes into contact with the surface of the mold, so that thereby the adherence of the metal to the mold is prevented, despite the mold in one relatively high temperature is obtained. In the remainder of the description, the term "gas" is used to mean both real gas and it also means vapors. Furthermore, the invention is based on the observation "that, if the metal-containing substances used are oxidizable at temperatures below the melting point of the casting metal, a protective oxide layer between the Casting mold and the metal is created.

When using the invention it is desirable to have only a very thin one To create a protective layer of gas between the wall of the casting mold and the casting, because an excess of gas causes ash formation and the creation of rough, flaky cast bodies caused. According to the procedure it is possible to regulate the amount of gas formation, be it that the gas-forming substance is contained in the mass of the casting mold, or be it that it is only applied to the wall of the casting mold. Call the gas-forming one -Mass is contained in the -Mass of the casting mold, wirel that of the molten -Metal heat when the rivet touches the mold in the mold only result in the formation of the required amount of gas, since the gas tension prevents the formation of excess gas. Both during the casting process as well as during the breaks between the successive casting processes the gas-forming substance by itself touch the heated mold and in this way add to the supply of gas-forming substance where it should be missing, so that one automatic regulation of the supply occurs. If, on the other hand, the gas-forming substance sits only on the wall surface, so the amount of gas can be formed be regulated that one. , Lie Meelge of the gas-forming substance regulates which on the relevant areas of the wall surfaces is applied. Finally you can also regulate the amount of gas by working together with the gas producing Applying a suitable thermal insulation material to the fabric, or by putting the latter over lays the gas-forming substance.

To carry out the invention, metals or metal mixtures are earthed are used, which are generally referred to with the expression "metal-containing substances" to like. The same will be with the mass from which the mold is wholly or partially exists, alloy or have an affinity for said mass. Appropriate the boiling point or evaporation point of the gas-forming substance would have to be above the temperature lie, in which the mold is obtained, around soft and perfect cast bodies to produce, as well as below the temperature of the molten metal to be cast. Masses that gas or vaporize within such temperature limits will generate a low pressure gas at the temperature of the molten metal and a gas protective layer between the wall of the casting mold and the outer surface of the molten metal, which protective layer does not crumble or adversely affect the molten metal in places. The choice of Gas-forming mass will therefore depend on the melting point of the metal to be cast. If, for example, bronze is to be cast, gas-forming compounds must be used that have a relatively low boiling point, such as. B. Cadmium and zinc chloride. Metals such as zinc, cadmium, barium and magnesium can be used for cast iron to be used. If so-called high-speed steel is to be cast, it can be Zinc, magnesium, barium or bismuth prove expedient as a gas-forming substance.

Expediently, you use substances that are related to the metal of the casting mold Have affinity or alloy with the mold, metal. so that the gas-forming Mass in the mass of the mold ready for use, or when the gas-forming -! just let the surface of the casting mold be communicated so it is partially absorbed by it, which means that there is a suitable gas supply for every casting will surely be ready. It has therefore proven to be useful to use zinc as a gas-forming metal for iron casting molds, since zinc is easily penetrates into the bulk of the molds and self under the action The heat of the molten metal is dispersed therein, so that the mold surfaces of the casting mold To be kept saturated with the right amount of zinc and when taking out of the castings will form a layer of zinc oxide on the wall of the mold a gas-forming metal is used that has no affinity for the metal of the casting forums possesses, it can be applied in sufficient quantity to the wall surfaces of the casting mold so that it forms the required amount of gas, such as. B. Kadmiueli and Magnesium, when iron molds are used. The zinc can also be externally in the same way To be applied wisely when it appears desirable. if iron casting molds are used together with zinc as the gas-forming metal, The mold can be impregnated to saturation by dipping it in molten zinc will. The excess zinc is then rubbed off. The gas-forming mass can also be blown in a gaseous state against the surface of the casting mold, where it will then solidify in the form of a powder or form a soft coating, depending on the temperature of the mold.

If the mold consists of a mixture of one or more substances, so the gas-forming substance (s) are so% count that they come from one or the other several of the components are included that make up the mold . is. Casting molds made from mixed metals can be mixed with various substances be treated. However, it has been found to be advisable to use casting molds From metal mixtures to treat with gas-forming mixtures, which clay, if necessary also contain one or more metals. The selected protective material can therefore if it is to be included in the mass of the mold, it must be one, which is picked up by the sound, or it can be one which grooves an alloy to one or more of the metals contained in the casting molding compound forms or has an affinity for them. The mixing mass of the casting mold can therefore are composed of clay, iron, nickel and other substances. Molds that Made from clay and nickel or from clay, iron and nickel have proven to be shown to be very receptive to a large amount of zinc.

The one given by the application of the new method of the casting mold Protection is of particular importance when using molds made from metal mixtures, because the gas sent to the outer skin of the casting mold prevents the molten Metal attacks and decomposes the mold, reducing the durability of the mold, which consist of metal mixtures is increased significantly.

The protective mass can thereby in a mold, which consists of a There is a metal mixture, be introduced that it is -gasified, with the admission of air is shut off and the oxidation is prevented. The gas obtained in this way is then: absorbed by the mold and, when it solidifies again, becomes a solid mass deposited within the mold. If then in such a mold - castings are produced, the heat of the cast body is gradually gasified and a deposit of the protective substance on the walls of the mold result have, causing jamming or sticking of the casting within the mold is prevented.

Casting molds made from metal mixtures can also be used to generate gas Lined substances "= earth that gasify at a temperature below the Temperature of the casting metal. This can be done in the same way as the previously described iron molds have been lined.

It does not matter whether the gas generating mass is in the mass of the casting mold is included with or is used only as a liner, the crowd can the gas generated by the heat of the molten metal can be regulated by that a bad heat conductor is deposited on the wall surface of the casting mold, such as B. lamp black, graphite or other similar substances, «-elche not chemically have a destructive effect on the casting mold or on the gas-forming mass or on the metal to be melted in the molds. When the protective fabric in the bulk the casting mold, this completely penetrating, is received, so the lamp black be deposited on the mold wall by means of a burner, for example by means of an acetylene burner with a flame reducing device. If, on the other hand, the Casting mold in contrast to a complete impregnation with the gas-forming Ground is only lined, so the poorly thermally conductive material can be attached to the Mold can be placed over the protective layer, or it will be communal applied with the gas-forming substance. The molds can also be exposed to zinc fumes will. The zinc fumes will then deposit zinc metal and zinc oxide on the mold and in this way coat the mold with a gasifiable mass, which penetrate a little into the mass of the mold.

The poor conductor of heat will act to limit the amount of gas and to maintain a thin, uniform protective layer of gas until the cast body is removed from the mold. The amount of gas formation can be this way can be regulated by the amount of bad heat conductor, and so you can do both Let them work together to produce soft, perfect cast bodies.

Since gas-evolving metal-containing substances cause the adhesion of molten Prevent metal to other metal or of molten metal to fired clay, ladles, crucibles, troughs, pipes and other devices or parts of furnace, the for Treatment of certain cast metals can be used, such as z. B. for the treatment of cast iron, bronze o. The like. In the molten state, with Gas-evolving substances such as zinc, cadmium and the like are treated to prevent them from sticking to prevent the molten metal on the vessels. In this sense one can be iron Treat ladles with zinc, which prevents molten iron from sticking to it these ladles will prevent and a smooth flow and a complete Release of the iron from the ladles in question will allow.

The invention, however, is of particular value when used in conjunction with the method of melting the metals comes into use because thanks to the invention the castings may be removed from the molds before any part its outer surface has become crystalline, and even while the inner mass the casting is still in a molten state, and that is only possible «Part of the invention is a complete separation means between the cast body and a heated mold, which allows safe removal of all parts of the cast body from the casting mold guaranteed.

Claims (1)

PATENT CLAIMS: t. Method of preventing an in a mold of poured metal by forming a gaseous, between the molten metal and the mold by the heat of the molten metal evoked protective layer, characterized in that the protective layer forming mass contains metal, in particular zinc or zinc compounds contains. a. Method according to claim i, characterized in that the casting mold is coated with the metal-containing substance. 3. The method according to claim i, characterized characterized in that the metal-containing substance more or less in the mass of Casting mold is introduced, whereby the gaseous material is gradually generated and is supplemented. .1 .. The method according to claim i, characterized in that the metal-containing mass with a neutral, thermally conductive, preferably carbon-containing Substance is combined, whereby the gaseous protective agent is gradually generated and is supplemented. Method according to claim 4, characterized in that iron Casting molds are treated with zinc or zinc compounds. 6. The method according to claim i, characterized in that clay-containing casting molds with a clay-containing mass be treated as protective mass.