SU1022044A1 - Non-destructive method of checking lengthy metal article mechanical propetries - Google Patents

Abstract

THE METHOD OF NON-DESTRUCTIVE MONITORING OF THE MECHANICAL PROPERTIES OF METAL TIGHTENED PRODUCTS, which consists in influencing the product with a constant magnetic field, excites ultrasonic oscillations in the product, measure the radiation level of the radiation source, and detect the radiation from the radiation level of the radiation source, in which the radiation level of the radiation source is detected. in the control of mechanical properties, characterized in that, in order to increase the accuracy of the control, the induced electrical signal is measured at a distance from the first measurement site, multiple of . Of an ultrasonic (oscillations in a reference material, and the difference of the amplitudes of the measured signals is judged on the properties of mechanical vah-§ (A w tsS about 4: ib 4: 1

Description

The invention relates to non-destructive testing and can be used to control the mechanical properties of ferromagnetic metals.

There is a method of non-destructive testing, which consists in the fact that the metal is subjected to a constant magnetic field, excite ultrasonic vibrations in it, place the coil in the antinode of the standing wave voltages, and measure the EMF induced in the coil at two values of the magnetic field strength, the value of which is judged on the mechanical properties of metal fl].

The disadvantage of this '' method is the low accuracy of control due to the different position of the antinode voltage in the metal, depending on the magnitude of the magnetic field.

Closest to the technical nature of the present invention is a method of non-destruction; further control of the mechanical properties of metal extended products, namely, that they act on the product with a constant magnetic field, excite ultrasonic vibrations in it, measure the electric signal induced in the product at the antinode of the standing wave voltage and take it into account when controlling mechanical properties [2].

A disadvantage of the known method is the low accuracy of control, due to the fact that the measured phase shift depends not only on the structure of the metal being monitored, np and on the mechanical properties of the material of the ultrasonic vibration • concentrator, but also on the acoustic contact between the concentrator and the controlled material.

The aim of the invention is to increase the accuracy of control of the mechanical properties of metal products.

This goal is achieved by the fact that according to the method of non-destructive testing of mechanical elongated products, the electric signal induced in the product is measured at a distance from the first measurement point, a multiple of half a half, the wavelength of ultrasonic vibrations in the reference material, and mechanical signals are judged by the difference in the amplitudes of the measured signals properties.

The drawing shows a schematic diagram of a device that implements the proposed method.

The device contains a magnetostrictive transducer 1 with a waveguide 2, in the antinodes of the displacements of which a wire 3, a solenoid 4, from | Measuring, coils 5 ,. installed in the antinodes of the voltages of the reference material, series-connected comparison unit 6, amplifier 7. and measuring device 8, as well as reflector 9.

The method of non-destructive testing of the "mechanical properties of metal extended products is as follows.

When pulling the controlled product 10 through the draw 3, in. him. ultrasonic vibrations are excited by means of a magnetostrictive transducer 1 and waveguide 2. A constant magnetic field is created by a solenoid 4 in the controlled area, and the reflector 9 serves to create a standing wave mode. Moreover, in the measuring coils 5, which are pre-installed in the antinodes of the voltage of the reference material at a distance that is a multiple of half the wavelength of ultrasonic vibrations in the latter, and fix 35 ® in this position, · when passing the controlled product 10 induced EMF variables. which are subtracted in block 6 comparison. Then the difference "signals, characterizing the mechanical properties of the product 10, is amplified by an amplifier 7 and fed to the measuring device 8.

Thus, by additionally measuring the electric signal induced in the product at a distance from the first measurement multiple of half the wavelength of ultrasonic vibrations in the reference material, the control accuracy is increased, since the measured difference of the signals I induced in the measuring coils does not depend on the mechanical properties hub material.

Claims (1)

METHOD FOR NON-DESTRUCTIVE TESTING MECHANICAL PROPERTIES OF METAL throughout the product, comprising the steps that affect product constant magnetic field, is excited into ultrasonic vibrations therein Nia _f, measured in the product navedeyny electrical signal in .napryazheniya antinodes of the standing wave and allow it under the control of mechanical properties, characterized in that, in order to increase the accuracy of the control, the electric signal induced in the product is measured at a distance from the place of the first measurement that is a multiple of nd half of the ultrasound wavelength ukovyh • oscillations of the reference material, and the difference of the amplitudes of the measured 'signals are judged on the properties of mechanical-§ vah. SU, .1022044 I