SU884838A1 - Method of holding electrically conductive materials in electromagnetic field - Google Patents

Description

I

The invention relates to metallurgy and can be used in the continuous casting of metals in an electromagnetic field.

Closest to the present invention, there is a method of holding a liquid metal by an electromagnetic field in an inductive mold for continuous and semi-continuous casting of pipes. The method includes passing an alternating sinusoidal electric current through an inductor, in the field of which there is an electrically conducting material. The resulting high-frequency magnetic field induces eddy currents in the liquid metal. The eddy currents interact with the magnetic field of the inductor, creating electromagnetic repulsive forces that form the outer and inner surfaces of the casting Ij.

The disadvantage of the known method is relatively low efficiency due to the fact that the electromagnetic field of an alternating sinusoidal current, whose growth time is equal to the decrease time, is almost symmetrical in time. In such an alternating magnetic field, in addition to the repulsion effect of the liquid metal, electromagnetic forces arise, practically equal in magnitude and time of action to repulsive forces. As a consequence, to retain a column of liquid metal, a relatively large amount of electricity is required in the mold.

The purpose of the invention is to reduce power consumption.

Claims (2)

This goal is achieved by that in the method of holding electrically conductive materials in an electromagnetic field, which includes passing an electric current through an inductor, an electric current with an asymmetrical change in time is used. 3 In order to create an integral electromagnetic repulsion effect, the electromagnetic field is created by a slow but increasing and rapidly decreasing one. In this case, due to its inertia, the electrically conductive material has time to repel a greater distance than it attracts. To create the electromagnetic effect of attraction, the electromagnetic field is created slowly, but slowly falling and rapidly growing. In this case, the electromagnetic forces of spraying act longer than the repulsive forces, and due to the inertia of the material, it will have time to attract a greater amount than to push. The proposed method allows to increase the holding forces of the metal many times at relatively low energy costs. To implement the proposed method of holding electrically conductive materials in an electromagnetic field, an electromagnetic mold device can be used. The drawing shows a diagram of the electromagnetic mold. A device that implements the method of prediction contains an inductor 1 connected to a source of asymmetrically varying in time current 2. Indesstor 1 mounted on the body 3 of the mold. The housing has a channel 4 and apertures 5 for supplying cooling water to the formed surface of the ingot 6 installed on the seed 7. The flow regulator 8 serves to maintain a predetermined column of liquid metal in the well of the mold. The method is as follows. Connect the inductor 1 to the current source 2, fill the well of the mold with liquid metal. The liquid metal is affected by an asymmetrically varying in time electromagnetic field, and to create an integral effect of repulsing the rise of the electromagnetic field more than the time it decays. For example, to keep a liquid metal stem (steel with a height of 160 mm and a radius of 100 mm with an electromagnetic field that is asymmetrically variable in time with a frequency of 150 Hz and a ratio of rise time to fall time equal to 10, an electromagnetic field induction of 0.3 T is necessary. This is achieved by passing through a current inductor, the magnitude of which is 2, at a voltage of 0.1 V. In this case, the metal will repel the inductor for 6, and be attracted to the inductor for 6.7-10 s. The path traversed by a cubic centimeter of liquid o metal (in the free state) With repulsion equal to 7.3 mm and with attraction 0.773 mm. Therefore, the metal does not have time to return to its original position with attraction and a retention effect occurs. The proposed technical solution in this example is 26 kW, and using the known technical solution it is 250 kW. The proposed method can also be used in a thermoelectric technique to hold a layer of liquid metal on the surface of the first wall. eyes camera nuclear fusion reactor and to the plasma retention. Claims The method of holding electrically conductive materials in an electromagnetic field, including the transmission of electric current through an inductor, is characterized in that, in order to reduce power consumption, an electric current is used with an asymmetrical change in time. Sources of information taken into account in the examination I. USSR author's certificate 532198, cl. B 22 D 11/04, 1975.