SU492553A1 - The method of producing metals and alloys - Google Patents

Description

The invention relates to the field of metallurgy, and can be applied in the production of metals and alloys. : A known method of treating a liquid metal, in which the metal is mixed by a traveling electromagnetic wave; mixed with metal, is also known. Methods for producing alloys based on aluminum and magnesium using an electromagnetic field are also known. The essence of the methods consists in melting the alloy components, processing; melting with fluxes, salts, slags, inert gases, the effect of magnetic and electromagnetic fields on the melt and the subsequent casting of metal into molds. impairing the physicomechanical properties of the alloy due to induction only in the melt of the electric and electromagnetic fields of RPM by the action of external fields. The purpose of the invention is to prevent the formation of oxides, intermegallides and gases in the melt. This is achieved by subjecting the smelting process to a metal or alloy: to electric currents, electromagnetic fields and magnetic forces that occur directly in the liquid melt and conduct the frame, rotate with together with the melt in a magnetic field. j To enhance the electromagnetic effect of j and enhance the effect of magnetic forces on the melt, a current is passed through the framework. In the drawing, schematically, izobrachs 1 is the principle of induced electric currents applied to the liquid metal, and sign: cit, electromagnetic fields and magnet; forces. crucible 1 is in the molten one. a metal or alloy 2, which is affected by the magnetic field of an electromagnet 3. A liquid metal placed current-conducting electrically and thermally insulated frames 4 made of a more refractory material than the melt.

As the frames rotate, the melt rotates and moves. As the frames and the liquid metal rotate in a magnetic field, an electric current is induced.

The currents of the frame and the melt interact: electromagnetism of the current of the framework interacts with the magnet moving in the field, charged particles of the melt, and the insulating current and the electric ignitant field of the rotating melt interact with the current of the framework.

To enhance the electromagnetic effect on the melt and enhance the effect of magnetic forces, an additional electric current is passed through the framework. The magnetic force of interaction depends on the magnitude of the induction of the external magnetic field, the speed of rotation of the frames, the size and number of turns of the frames.

The direct interaction of the electric TLCs and electromagnetic fields with the melt, which is in a state of intense warming and mixing, gives rise to the effect of improving the structure and

properties of alloys and metals due to the removal of gases from the metal and the destruction of chemical compounds and complexes.

Claims (2)

1. A method of producing metals and alloys, including melting the alloy components, treating the melt with fluxes and inert gases, exposing it to an external magnetic field and an electromagnetic field, characterized in that, in order to prevent the formation of in the melt of oxides, intermetallidium and gas, in the process of melting, the melt is additionally affected by the shim body immersed in it. 2. Method pop. 1, which is also distinguished by the fact that, in order to enhance the magnetic effect on the alloy and to increase the effect of magnetic forces, an electric current is drawn through the rotating conductive body immersed in the metal.