RU2031758C1 - Method to pour readily oxidizing alloys - Google Patents

Abstract

FIELD: foundry. SUBSTANCE: pouring readily oxidizing modifiers and alloys is performed in inert environment with minimum consumption of inert gas and reliable metal protection from air. For the purpose cavity of ingot mould with a lid is filled with inert gas before metal casting. As the ingot mould is filled the inert gas being displaced is directed to metal jet. EFFECT: metal protection from air. 2 dwg

Description

 The invention relates to ferrous metallurgy, in particular to the production of easily oxidized alloys in an inert environment.

 A known method of protecting a metal stream with gas during casting into molds, including the supply of inert gas through a hollow ring with gas outlet openings, suspended from the bottom of the bucket and having the shape of the upper end face of the mold [1].

 The disadvantage of this method is the increased consumption of inert gas. To implement the method, a device for molds of small size is required. Otherwise, the use of this design for large molds, as is customary in the casting of easily oxidizable alloys, such as alloys, with a constant supply of gas leads to high gas costs and uneconomical method. In addition, the reliability of protection by the jet method is small, since the jet captures and carries with it air, and it is not possible to completely eliminate the oxidation of the metal. Oxidation also continues at the end of casting, when the surface of the mold remains open for interaction with air.

 A known method for pouring a metal melt into sand forms, comprising filling the mold before pouring the metal with protective gas under the cover under excessive pressure and purging the sand form with protective gas until the mold is completely filled with metal [2].

 The disadvantages of the method include the fact that with large volumes of the cast alloy, the sand-clay form requires an increased gas flow rate to maintain a given pressure in it, which reduces its economy. The method pollutes the working area, since inert gas passes through the pores of a sandy-clay form with a pressure drop. It is impossible to cast easily oxidized alloys in the indicated forms, since the required crystallization rate and, accordingly, the quality of the ingots are not achieved (uniform chemical composition and structure throughout the entire volume of the ingot). In addition, the reliability of protecting the metal feed by the jet method is small, since the jet captures and carries air with it and it is not possible to completely eliminate the oxidation of the metal.

 The aim of the invention is to increase the efficiency of the process and the reliability of protecting the melt from oxidation and burnout.

 For this, in the known method, which includes supplying an inert gas to a casting mold isolated from the surrounding atmosphere and removing it, pouring the melt into the casting mold, as the filling of the casting mold with the melt, the outgoing inert gas is sent to the jet of molten melt.

 The proposed method allows to reduce the consumption of inert gas, since its consumption per melting is equal to the internal volume between the lid and the walls of the mold and provides increased reliability of metal protection from interaction with air, since the feed is carried out directly into an inert medium, which excludes metal oxidation during its supply and during its cooling.

 In FIG. 1 presents a device for implementing the proposed method; in FIG. 2 is a section AA in FIG. 1.

 A device for implementing the method includes a casting mold made in the form of a water-cooled copper mold 1, equipped with a lid 2 with a nozzle 3 for supplying inert gas into the cavity 4, formed by the lid 2 and the mold 1, an air duct 5 for trapping excess nitrogen, made with a shut-off valve 6 and pipe 7, a chute 8 for pouring metal and an onboard suction installed above it 9. The cover 2 is made two-layer, while the interlayer cavity 10 of the cover 2 is in communication with the ventilation system using the duct 5.

 The method is as follows.

 Prepared for casting, the mold in the form of a mold 1 is closed with a lid 2 and the inert gas supply system (for example, nitrogen) is connected to the nozzle 3. Inert gas is supplied to the cavity 4 formed by the cover 2 and the mold 1, until it is completely filled. When this shut-off valve 6 of the duct 5 is open. Before pouring metal shut-off valve 6 of the duct 5 is closed.

 When the mold 1 is filled with metal, the inert gas is displaced and enters the stream of metal supplied, then through the on-board suction 9 it enters the ventilation system with adjustable parameters of the suction volumes. The metal fill level is controlled by a float type level indicator with a light signal (not shown).

 After the ingots are cooled to a temperature that precludes oxidation of the alloy, the shut-off valve 6 of the duct 5 is opened and the residual nitrogen is sucked out by the ventilation system from the cavity 4 and the interlayer cavity 10 (shown in the drawing by arrows). Next, the mold is prepared to receive the next portion of the metal.

 The flow rate, nitrogen pressure, temperature of the waste water from the mold are controlled by measuring instruments installed on the control panel of the mold 1.

 The operation of the ventilation system of the suction is interlocked with the operation of control valves installed on the suction ducts, as well as with the work of the technological equipment of the casting unit for easily oxidized alloys.

PRI me R. The volume of supplied inert gas is 5 m ³ per smelting (4 t). The optimum casting temperature of the alloy is 1430-1400 ^о С, the casting time is 3 minutes.

 The crystallization time of the ingot 10 minutes Inert gas suction from the internal volume between the lid and the ingot 2 min.

 Compared with the prototype, the claimed technical solution allows to increase the efficiency of the method of casting easily oxidized alloys and alloys in an inert environment by reducing the consumption of inert gas and the reliability of protecting the metal from interaction with air.

Claims (1)

 METHOD FOR PREPARING EASY-OXIDIZING ALLOYS, which includes supplying an inert gas to a casting mold isolated from the surrounding atmosphere, removing it and pouring the melt into the casting mold, characterized in that, in order to increase the efficiency of the process and the reliability of protecting the melt from oxidation and burnout, as the casting mold is filled the molten inert gas is discharged by the melt into a stream of the melt being poured.

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