SU1534069A1 - Method of producing cast dies - Google Patents

Abstract

The invention relates to metallurgy and can be used in the manufacture of cast dies. The aim of the invention is to increase the durability of dies and manufacturability. The X12M steel is melted and, at 1410-1430 ° C, is poured into a single mold from the AL 9 alloy. When the casting surface reaches the stamp, the quenching temperatures of 1000-1030 ° C are removed from the mold and transferred to oil for cooling, after which 150-160 ° C. The method makes it possible to increase the durability of the dies and the manufacturability of their manufacture, since quenching is carried out upon reaching the surface of the casting at quenching temperatures. 1 tab.

Description

The invention relates to metallurgy and can be used in the manufacture of cast dies.

The aim of the invention is to increase the durability of the dies and simplify the process.

The melt of die steel is poured from above into an aluminum alloy mold. The surface of the molten steel in the immediate vicinity of the surface of the aluminum is rapidly cooled, forming a thin crust consisting of oxides resulting from the oxidation of the surface with oxygen from the air, hardened steel beneath and floating up non-metallic inclusions. Such a crust sticks to the wall of aluminum with its oxidized surface as the steel melt rises. At a later moment, education 4 /

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Because of the thicker steel crust due to the intense heat exchange between steel and solid aluminum, aluminum is heated at the same level.

Upper casting of the steel ensures intensive circulation of the liquid steel in the mold and, as a result, intensive washing of the steel crust.

Thus, the initially formed layer of the steel crust, due to the intensive supply of heat from the steel core washing it, stops its growth and establishes a constant heat exchange between the liquid core of the casting and the molten aluminum through the steel crust. As liquid steel rises, a secondary inner layer of the casting begins to form in the mold.

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After the casting of the casting steel has been completed and the quenching temperature has been reached on the surface of the casting, the latter is removed from the internal liquid part of the mold and transferred to the oil.

Intensive cooling of the steel during the formation of the initial crust of the steel in contact with the solid aluminum form, and the subsequent cooling in oil ensure the formation of small uniformly distributed carbides in the surface layers.

The method permits the manufacture of castings in the shape of die parts with an allowance for grinding, grinding and finishing. In this way, the same structure and hardness is ensured along the entire working edge of the tool.

A mold is made from an alloy of AL 9 for making punches from a steel X12M for stamping punches for cutting a stator sheet of an electric motor of the 4A160 M series.

Steel X12M is melted and, at 1410-, is poured into a mold with a wall temperature of 20 ° C. After 3-5 seconds, intense crystallization of the steel is achieved and its surface reaches a temperature of 1000-1030 ° C. The casting of punches is removed from the molten aluminum alloy mold and transferred to oil for cooling.

Way

Implementation Techniques

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The proposed method allows to obtain a working edge of the punch elements (punches, matrix segments) with a fine grade of grain and evenly distributed fine carbides, which significantly increases durability.

Data on the durability of the dies processed according to the proposed and known methods are given in

the table.

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The proposed method is simpler to implement, since quenching is carried out upon reaching the surface of the casting quenching temperatures, while the technology of the known method involves the operation of heating to quenching temperatures.

Claims (1)

Invention Formula A method of manufacturing cast dies, including pouring steel into a mold, its crisplisation and cooling, batching and tempering to a predetermined hardness, in which, in order to increase the durability of the dies and simplify the process, the pouring is carried out in a molten form of aluminum alloy , and quenching is carried out upon reaching quenching temperatures on the surface of the casting during the cooling process. Hardness, Wear Resistance, HRC number of unloadings, thousand pcs. Predla-Filling steel H12M in shape Alloy from the AL 9 alloy for making stamp punches. When the surface of the casting reaches a temperature of 1000-1030 ° C, it is removed from the mold, cooled in oil and released at 150-160 ° C. Known Filling X12M steel into a mold, cooling, removing the casting from the mold, heating to quenching temperatures of 990-1010 ° С, quenching and tempering at 150-160 ° С 62-63 12 62-63 ten