SU599240A1 - Arrangement for measuring hard-magnetic material characteristics in periodic magnetic fields - Google Patents

Claims (1)

the test sample is placed, two integrators, the inputs of which are connected to the measuring coils located in the neutral section of the test sample, and the outputs through the keys of the phase shifter - with the inputs of pulsed voltmeters connected to the inputs of recording devices, are equipped with a generator of magnetization reversal current, pulsed winding, placed on the neutral section of the test sample, and a driver of control pulses, while the output of the alternating current-switching oscillator is connected to a pulse winding, and the input is connected to the first output of a control pulse former, the second output of which is connected to the input of a generator of a continuous periodic current and to the input of a phase shifter. The drawing is a structural diagram of the proposed device. The sensors of alternating magnetic flux are measuring coils 1 and 2 placed in the neutral section of the test ferromagnetic sample 3. In general, the ferromagnetic sample 3 can be made of any magnetically hard material. The measuring coil 1 is connected to the integrator 4, the output of which through the switch 5 of the phase-switch. The connector 6 is connected to the input of a pulse voltmeter 7, the output of which is connected to the recording device 8, form the measurement channel of induction B. The measuring coil 2 is connected to the integrator 9, the output of which Via key 10, phase switch 1 is connected to a pulse voltmeter 11, the output of which is connected to registering device 12, form a channel for measuring the intensity of field N. Phase rotator 6 together with integrators 4 and 9 allocates instantaneous values 1: induction and intensity of the magnetic field from the hysteresis loop, the magnitudes of which are recorded by recording devices 7 and 12. The output of the generator 13 reversal current pulses is connected to the pulse winding 14, which is located on the neutral section of the test sample 3, and its input is connected to the first output of the former 15 pulses. The output of the generator 16 of a continuous periodic current is connected with the winding of the electromagnet 17, in the gap of which test sample 3 is placed, and the input is connected to the second output of the control driver 15 and to the input of the phase shifter 6. The device operates as follows. The test sample is re-magnetized in a pulsed manner by switching current pulses in the pulse winding 14. The demagnetizing areas of the hysteresis loop are formed by continuously changing the periodic magnetic field of the electromagnet, which is generated by the continuous periodic current generator 16 by switching the current direction in the electromagnet winding 17. The generator 13 alternating current pulses and a continuous periodic current generator 16 are synchronized by a driver 15 pulses so that the test. My sample 3 is re-optically pulsed, and demagnetizes from point B to point HC and down the hysteresis loop continuously changes the magnetic field, i.e. the magnetic field pulse acts on sample 3 in the monitor when the amplitude is continuously changing the magnetic field reaches a maximum, and their direction coincides. The magnitude of the amplitude of the pulse of the magnetic field and the maximum amplitude of the continuously varying magnetic field occur. Therefore, in the area of the magnetic magnet system of an electromagnet, strong pulsed continuous periodic fields are obtained, reversal of the test sample. The sample 3 is made of a highly coercive alloy over a limiting hysteresis iy cycle, as a result of which the accuracy of measurement of high coercivity samples is improved. Thus, the test sample 3 during the reversal and measurement of the parameters of the hysteresis loop is constantly in the gap of the electromagnet, the magnetic circuit of which forms a closed magnetic system with the test sample. By changing the phase shifter 6 to the delay time of its output switches 5 and 10 in relation to the beginning of the period and pulses of the magnetizing current in the pulse winding 14 and demagnetizing current in the winding of the electromagnet 17, it is possible to completely determine the main ferromagnetic parameters of the hysteresis loop of the test sample from highly coercive materials. Claims An apparatus for measuring the characteristics of magnetically solid materials in periodic magnetic fields, comprising a continuous periodic current generator, the output of which is connected to an electromagnet winding, into the gap of which the test sample is placed; two integrators, the inputs of which are connected to the I31 measuring coils located in the neutral section of the test sample, and the outputs through the keys of the phase shifter to the inputs of pulse volts of meters connected to the inputs of recording devices, which, in order to improve the accuracy measurement, it is equipped with a generator of alternating current oscillation pulses, pulsed winding, placed at the neutral cross section of the test sample, and a driver of control pulses, while the output of the generator is non-magnetic The current is pulsed by a pulsed winding, and the input is connected to the first output of the driver control pulses, the second output of which is connected to the input of a generator of a continuous periodic current and to the input of the phase shifter. Sources of information taken into account in the examination: 1. Author's certificate CCCf Лг 473135, cl. G 01 R 33/12, 1971. 2. Structure for testing magnetically hard materials. K., “Iaukova Dumka, 1971, p. 113-118.