SU855482A1 - Device for magnetic noise structuroscopy - Google Patents

Description

(54) DEVICE FOR MAGNETOSTRUCTURE STRUCTURE

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The invention relates to non-destructive testing and may be developed in mechanical engineering for controlling the structure and mechanical properties of ferromagnetic materials.

A device for magnetic shading strucroscopy is known, comprising a source of a magnetizing current, connected to a remaking unit and an induction converter connected to a spectrum analyzer 11.

However, this device is characterized by insufficient reliability of control, which is associated with the need to restructure the spectrum analyzer during the control process and with low relative sensitivity to monitored parameters.

The closest to the invention to the technical essence is a device for magnetic noise restructuroscopy, containing an alternating current source, a magnetization reversal unit connected to an alternating current source, an induction transducer, a signal processing unit connected by its own input transducer to an induction transducer

frequency, amplifier, amplitude detector and integrator, and indicator

However, this device does not provide the necessary reliability of control, which is associated with low sensitivity to the controlled parameters of products.

The purpose of the invention is to increase the reliability of controls.

The goal is achieved by the fact that the device is equipped with an additional magnetising unit, an induction converter and a unit

15 signal processing, identical to the main ones, the detector of the effective values and the subtraction unit connected by their inputs to the outputs of the corresponding signal processing units and their output through the detector of the actual values to the indicator, the additional remagnetization unit is connected in series with the main one, and the additional induction

25, the converter is designed to interact with the samples of the product and is connected to the input of an additional signal processing unit.

The drawing shows a block diagram of the device.

The device contains a source of I remagnetizing circuit, blocks 2 and 3 remagnetization, connected in series, and induction converters 4 and 5, connected respectively to the controlled and model products, connected to the source 1 of the magnetization current, each of which is connected to its input with a corresponding induction converter, the signal processing unit b consists of a series-connected high-pass filter 8, amplifier 9, detector ra 10 and integrator 11, and signal processing unit 7. - from series-connected high-pass filter 12 of amplifier 13, amplitude detector 14 and integrator 15, subtraction unit 16 connected by its inputs to the corresponding outputs of blocks b and 7 of signal processing, and its output through actual value detector 17 to indicator 18.

The device works as follows.

With the flow of alternating magnetization current from the source 1 through the winding of the permagnetizing blocks 2 and 3, the in-phase alternating magnetization of the controlled and exemplary products occurs. Barkgauzen jumps, which occur in this case, induce EMF pulses in the windings of induction converters 4 and 5. These EMFs are filtered by high-pass filters 8 and 12 (in addition, the discrete components of the EMF spectrum — harmonics of the magnetization reversal) are suppressed, amplified by wideband amplifiers 9 and 13 they are detected by amplitude detectors 10 and 14, integrated by integrators 11 and 15 (thus forming the envelope of the current spectrum of magnetic noise) and fed to the inputs of subtraction unit 16, where the instantaneous values of the current spectra are subtracted s magnetic noise controlled and reference products. The output voltage of the subtraction unit 16 is a measure of the difference in the magnetic PROPERTIES of the monitored and exemplary products. This voltage is detected by the detector 17

Values (quadratic detector) and goes to the indicator 18, the readings of which characterize the properties of the controlled product. At the same time, the uncorrelatedness of individual Barkhausen jumps does not matter, since the averaged over the set and over time characteristics of two periodically non-stationary random processes, and not the random functions themselves, are subtracted.

The device makes it possible to increase the reliability of the control, since it implements the differential principle of the controller, whose sensitivity is always higher than the absolute.

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Claims (2)

1. Author's certificate of the USSR 461346, cl. G 01 N 27/86, 1972. 2. Patent of GDR 71635, cl. 42 to 46/03, 1970 (prototype). H