SU537313A1 - The method of measuring the time of the magnetic effect - Google Patents

Description

one

The invention relates to the study of the magnetic properties of substances and is intended to measure magnetic aftereffect in ferromagnetic materials.

A known method of measuring the magnetic after-effect time, in which the sample is magnetized to a certain point on the hysteresis loop (magnetization curve), jumps determine a certain increment of the magnetic field and observe on the screen of the oscilloscope the variation curve of the EMF induced in the primary converter in time, which is characteristic of the process magnetic viscosity. The time of this process — the relaxation time during which a new magnetic state is established on the braats — is taken as a measure of magnetic aftereffect 1.

The low accuracy of the known method is due to the visual definition of the process of EMF change over time.

The purpose of the invention is to improve the accuracy of measurement of magnetic aftereffect in ferromagnetic materials.

This is achieved by the fact that during the time of material transfer to a new magnetic state, the number of Barkhausen jumps per unit of time is counted, they are converted to voltage, the maximum value of the initial voltage level and the level of 0.01 of the maximum

values, for the time of magnetic aftereffect, take the time during which the voltage varies from the maximum value to the level of 0.01 from the maximum value.

The method is based on the proof of the feasibility of measuring not the decay time of the EMF curve induced in the primary transducer, which is measured at a level of 0.01 of the maximum magnetisation magnitude, but the decay time of the Barkhausen jump intensity when measuring magnetic aftereffect.

As a result of an abrupt change in the magnetization in the measuring winding of the primary converter, an EMF pulse is induced, the magnitude of which is determined by the expression

   , S ,.

(one)

/ i dt

Transform that expression get

d //

A5, -L l, (t) dt,

(2)

where w - the number of turns of the measuring winding

primary converter; 5 - the cross-sectional area of the sample,

i.e. the value of emf induced in the primary converter is proportional to the change

magnetic induction, the magnitude of which, as shown by experiments, is less. This imposes certain difficulties in measuring the sample magnetization; therefore, it is advisable to convert the EMF pulse, described by expression (2), into a pulse of constant amplitude and duration, which is quite simple. In this case, the subsequent processing of the results of measuring the magnetic after-effect is not reduced to the operation of determining the volt-second area, but to the operation of processing pulses of constant amplitude and duration. The latter operation is much easier to implement in practice, and this increases the accuracy of measurement of the magnetic aftereffect and the possibility of obtaining measurement results in digital form.

Thus, the sequence of operations for measuring the time of the magnetic after-effect is as follows: the sample is magnetized to the initial state for measuring the state, a definite increment of the magnetic field is given in jumps, the intensity of the delayed Barkhausen jumps is converted to a voltage, its value is fixed at the initial moment (maximum value) and counted

time until the moment when the intensity of the Barkhausen jumps reaches 0.01 of its maximum value.

Claims (1)

1. Chechernikov V.I. Magnetic Measurements, M., Ed. Moscow State University, 1969, p. 196.