SU794454A1 - Magnetic noise structurometry method - Google Patents

Description

one

The invention relates to electromagnetic control methods, in particular, to methods for determining the structural state of ferromagnetic products using the Barkhausen effect. The method can be used in mechanical engineering for non-destructive quality control of the structural state of products after various technological operations, such as heat treatment.

A known method for monitoring the structural state of ferromagnetic materials is based on measuring the amplitude and phase of the secondary EMF of the magnetization reversal current 1.

The disadvantage of the method is the low sensitivity to the change in the structure of ferromagnets after certain types of technological processing, resulting in small degrees of change in the structure.

Closest to the invention is a method of magnetic noise-noise structometry, which consists in reversing the product and measuring the parameters of the Barkhausen magnetic noise signal 2.

The method is based on measuring the intensity of the Barkhausen noise in a wide or narrow frequency band by converting them into electrical signals with an inductive transducer.

The disadvantage of the method is that, in its implementation, part of the magnetic noise-induced jumps in the magnetization of the upper and lower ranges of the spectrum

is registered, therefore, for the normal operation of the input stages of the measuring circuits of the transducers, it is necessary to suppress the harmonic components of the EMF reversal magnetization.

Another disadvantage of the known method is that the magnetization pulses excited in the depth of the ferromagnet are shielded by the surface layers due to eddy current interaction and are not perceived by the transducer measuring coil, i.e. some of the useful information is lost, which reduces the control accuracy. The aim of the invention is to increase

accuracy of control.

The goal is achieved by converting elastic waves in the product, caused by Barkhausen jumps in the range of sound and ultrasonic frequencies, into

electrical signals and measure the maximum spectral density of elastic waves, which is used to judge the quality of the structure.

The drawing shows the device for

implementation of the method.

The device comprises a magnetisation unit 1, an electromagnetic exciter 2 field in the controlled article 3, an electroacoustic transducer 4, a narrow-band tunable filter 5 and a measuring unit 6.

The method is carried out as follows.

When the unit I magnetizes with the help of an electromagnetic exciter 2 field of the controlled product 3, Barkhausen magnetic noise occurs in the latter caused by an abrupt measurement of magnetization. The abrupt change in the magnetization leads to the formation of elastic Barkhausen waves in the product in the range of sound and ultrasound charts. The arising elastic waves are extracted by the electroacoustic transducer 4 and are converted into electrical signals. The selected signal is fed to a narrowband tunable filter 5, and using the measuring unit 6, the spectral density of elastic Barkhausen waves is determined.

Claims (2)

Invention Formula Magnetic-noise structured metometry, which consists in reversing the product and measuring the signal parameters of the magnetic Barkhausen signal, characterized in that, in order to increase the control accuracy, the elastic waves in the product, caused by Barkhausen jumps in the range of sound and ultrasonic frequencies, are converted into electrical signals and measured. the maximum spectral density of elastic waves, which is used to judge the quality of the structure. Sources of information taken into account in the examination 1. A. Dorofeev A. L. Induction structuroscopy. M., Energie, 1973, p. 176. 2. GDR patent number 71635, cl. 42k 46/03, 1970 (prototype).