SU619879A1 - Device for measuring coersive force of ferromagnetic materials - Google Patents

Description

(54) DEVICE FOR MEASUREMENT OF THE COERTSIVE FORCE OF FERROMAGNETIC MATERIALS

The invention relates to the field of magnetic measurements and is intended to measure the coercive force in spruce from ferrous magnetic materials. Apparatus for measuring the coercive force is known, comprising a source of magnetizing current, a generator of read pulses, a sample with magnetizing and reading windings, a magnetic flux meter, a switch connected to a storage device and a comparison unit, a divider between them 2, a control unit and a unit teams l. The known devices have insufficient measurement accuracy. It is also known a device for measuring the coercive force of ferromagnetic materials, containing a magnetizing device, a sample with magnetizing and measuring windings connected to the latter in series with an amplifier, a horn device, a driver, to the outputs of which are connected respectively three integrating circuits, through their outputs through a switch connected with the input of the analog divider,. The output of this divider is connected to the measuring device 2j. Its disadvantage is the impossibility of measuring with sufficient accuracy the coercive force in the local region during quasistatic primary magnetization. The purpose of the invention is to improve the measurement accuracy. To this end, in the proposed apparatus for measuring the coercive force of ferromagnetic materials comprising a series-connected to the measuring winding amplifier level latch threshold unit, a differentiating circuit integratsch inverter, a second amplifier and power magnetizing coupled schposledovatelno soednnennykm magnetizing winding and the resistor, further administered sequentially connected key, adder of intensity and divisor, as well as cy waiter of the number of jumps, the input of which is connected to the output of the detector conductive circuit and the first input key, and an output - to a second input of the divider, the second key input is coupled to the junction point of the magnetizing winding and the resistor, and an output device delmtvl yield.

FIG. 1 .dana structural diagram of the proposed device; in fig. 2 zgo work diagram.

The device contains a block of 1 magneti 1I8amy, a primary converter into magnetizers and measuring windings 2 and 3, an amplifier 4, a clamp ypOBHft, a threshold block b, a differentialtotoray circuit 7, an adder 8 the number of jumpsQQB | adder 9 voltage, key 10 / divider 11, integrator 12, invertop 13 and amplifier 14.

The device works as follows.

The EMF pulses from the measuring arm 3 are fed through the amplifier 4 to the clamp 5 level, designed to maintain a predetermined voltage at the input of the threshold unit 6.

From the output of the latch, level 5 sigal arrives at the threshold unit 6, producing rectangular pulses of constant amplitude with a duration equal to the duration of the Barkgau jumps, zen. These pulses arrive at the differentiating circuit 7, which forms pulses of constant amplitude and duration, which: unlock the key 10, through it a voltage proportional to the current in the magnetizing winding 2 of the field strength, arrives at the input of the adder 9.

Pulses of constant amplitude and duration from the differentiating circuit 7 are fed to the input of the adder 8 counting pulses.

From the adder 8, the first input of the analog deltbl 11 is supplied with voltage, the proportional number of jumps N, and the SECOND input from the adder 9 is supplied with a voltage proportional to the total strength of the critical fields. At the end of the remagizing process, the output of the divider 11 is relieved of a voltage proportional to the coercive force.

By creating a mode of magnetization reversal with a constant intensity jump. different changes in magnetization, it is necessary that the intensity of the ng1 magnetizing field changes not according to a linear law in time, but according to a more complex, depending on the properties of the sample to be examined, for which, from the output of the differentiating circuit 7, a sequence of rectangular pulses of constant amplitude and with a frequency proportional to the intensity of the Barkhausen jumps, is fed to the input of the integrator 12. The voltage on the inte- grater 12 is proportional to the intensity of the jumps of the stars. This voltage is inverted in the inverter 13 and, amplified by the amplifier 14, is fed to the control input of the magnetization unit 1.

Claims (2)

1. Authors certificate USSR 490052, kl.01KZZP / 12, 1974. 2. Authors certificate of the USSR 529434, cl. (011 33/12, 01/27/75. L /