SU1449955A1 - Apparatus for determining static magnetic characteristics of materials - Google Patents

Abstract

The invention relates to the field of magnetic measurements and can be used to control the quality of magnetic materials. The purpose of the invention is to expand the functionality through the implementation of various modes of magnetization reversal of samples of materials. The device consists of a source of magnetizing current, magnetizing 2 and measuring 3 windings, integrator 4, comparison unit 5, recorder 6, analog storage unit 8, differential amplifier 9, voltage extraction module 10, comparison unit 1I, trigger 12 and adjustable measurements. points 13 and 14 of the reference voltage. The goal is achieved by the choice of measurement method and magnetization mode depending on the type of material of the sample and the required accuracy. 1 il. O) 4i 4 QD O SL SD

Description

The invention relates to the field of experimental measurements and can be used to control the quality of magnetic materials.

The quality control of magnetic materials is inextricably linked with the measurement of their static magnetic para- meters. These parameters are determined at Stops, in which pulse-induction or induction-HTHO-continuous methods of measurement are implemented under various modes of magnetization by a magnetic field. At the same time, the choice of the measurement method and the magnetizing mode SH1N is determined by the type of material of the sample, the required accuracy and productivity of the measurements. j The purpose of the invention is the extension of functionality due to the) () implementation of various modes of reference to sample materials.

The drawing shows the functional scheme of the device.

The device contains a source of 1 for 1 | 4 magnifying. current, the output of which is connected to the magnetizing winding 2, measuring winding 3, connecting to the inputs of the integrator 4 and block 5 of the comparison. The output of integrator 4 is connected to the input of recorder b, the second input of which is connected to the measuring output of current source 1. Winding 2 and 3 are located on the sample 7 controlled material.

The output of the integrator 4 is also connected to the input of the analog mintage unit 8, the output of which is connected to the input of the differential amplifier | 9, to the second input of which is connected the output of the integrator A, the differential output of the amplifier 9 is connected to the input of the second comparison unit 11, the output of which is connected to the installation input of trigger 12, the reset input of which is connected to the output of block 5, and the output is connected to the control inputs of block 8 and source 1. The second inputs of blocks 5 and 11 are connected respectively to re voltage sources 13 and 14 onoppoi o voltage The source 1 is described in a known device.

The device works in the same way.

In the initial state, the trigger 12 is installed and the block 8 is located in the crash tracker. The current of source 1 does not change, the sample 7 is magnetized by the magnetic field of winding 2. The EMF in winding 3 and the voltage at the output of integrator 4 change. With this unit 8 reproduces the voltage at the output of the integrator 4, and the voltage at the output of the differential amplifier 9 is zero. In the process of magnetization reversal of the sample 7, the electromotive force in the winding 3 decreases and becomes equal to the voltage of source 13. Block; 5 resets trigger 12, which triggers source I and puts block 8 into storage mode. The voltage at the output of the unit 8 is turned off, and the voltage at the output of the amplifier 9 starts to change until. Until the voltage difference module at its inputs becomes equal to the source voltage 14. The moment of equality of the voltage modules is fixed by block 11 , which sets the trigger 12 again. After that, a linear change in the current of the source, 1 is stopped and the device switches to the initial state. Registto 6 fixes the magnetization curve in different modes of magnetization of sample 7 depending on the values of the reference voltages Sh and i | respectively, sources 13 and 14.

If ii) 4 U “oi“ :, where. - the voltage at the output of the integrator 4, corresponding to the maximum magnetic flux p ,; on the magnetization curve, the mode dH / u t const is realized, since the current will change linearly without stopping from the initial value to the maximum. In this case, the level of operation of block 5, defined, can be arbitrary in the range.

If and ikahs / n, where n is the given number of static points on the magnetization curve, then the step magnetization mode of the DF xaKc./n const is realized. In the gap between the points 6, | dH / c | t const mode. In this case, the trigger level of block 5 is set to zero: U (j, 0.

If UiManc, i.e., n is sufficiently large, then a mode close to Kdfv dt const is realized. In this case, the level is triggered 1 and block 5 is set equal to the desired d clt: Ura d $ / dt,

The results of the tests showed that in the proposed device

The state implements both induction-continuous measurement modes const or dH / dt const, as well as induction-pulse mode measurements with step magnetization at Df const. The points on the magnetization curves are evenly distributed,

Claims (1)

 Invention Formula A device for determining the static magnetic characteristics of materials, containing a magnetizing winding, a measuring winding whose output is connected to the integrator input, the output of which is connected to the first input of the recorder, the second input of which is connected to the first output of the current source, and the first comparison unit, which is different In order to expand its functionality due to the implementation of various modes of rewinding samples of materials, it is equipped with two adjustable sources of reference voltage. , the second 499554 a comparison unit, a module allocation unit, a trigger, a memory unit and a differential amplifier; the output of the first regulating reference voltage source is connected to the first input of the first comparison unit, the second input of which is connected to the output of the measuring skein of the coil, the output of the integrator is connected with the information input of the memory unit and with the first input of the differential amplifier, the output of which is connected to the input of the allocation unit, 15 module, the output of which is connected to the first input of the second comparison unit, the second input one of which is connected to the output of the second regulated voltage source, and the outputs 20 first and second blocks of comparison connected to the corresponding inputs, a trigger, the output of which is connected to the control inputs of the current source and memory unit, the output of which 25 is connected to the second input of the differential amplifier, and the magnetizing winding is connected to the second output of the current source.