SU1010548A1 - Device for acoustic emission checking of material under cyclic loading - Google Patents

Abstract

A DEVICE FOR ACOUSTIC EMISSION CONTROL OF MATERIALS DURING CYCLIC LOADING, containing. Connected in series a transducer, preamplifier, amplifier,. conversion, a periodicity allocation unit, a logsignal module extraction module, a potentiation unit, a divider, the detector output is connected to the input of the unit ogarifmicheskogo conversion and to a second input of the divider and its output - to the input of the indication unit, the output of the logarithmic block preob-. §: Development connected to the second input of the block selection logarithmic module of the signal. sl N | 00

Description

The invention relates to nondestructive testing of materials and can be used for acoustic emission testing of materials under cyclic loading. A device is known which contains an integral Fourier transform block connected in series,. the block of the logarithmic module of the signal, the block of the inverse integral Fourier transform and the block of potenzating of Ij. The disadvantage of this device is limited functionality, due to the need for a priori knowledge of the type of distinguishing function in order to eliminate the periodic components of one of the separated signals. The closest in technical essence to the present invention is a device for acoustic emission monitoring of materials under cyclic loading, containing a transducer, preamplifier, amplifier, filter unit, detector and indication unit 2J connected in series. A disadvantage of the known devices is the limited functionality caused by the use of temporal signal selection. The purpose of the invention is to expand the functionality. This goal in a device for acoustic emission monitoring of materials under cyclic loading containing a successive transducer, preamplifier, amplifier, filter unit, detector and indication unit is achieved by providing it with serially connected logarithmic conversion unit, block of periodicity, the module of the selection of the logarithmic module of the signal, the unit of tentiation, the divider, the output of the detector is connected to the input of the block of the logarithmic transformation and with the second input the divider's house, and its output with the input of the display unit, the output of the logarithmic transformation unit | C: is unified with the second input of the unit, separating the logarithmic signal module. The drawing shows a diagram of the proposed device. The device for acoustic emission monitoring of materials under cyclic loading contains a transducer 1 connected in series, a preamplifier 2, an amplifier filter block 4, a detector 5 and a display unit. The device is also equipped with a logarithmic conversion unit 7 connected in series, a periodicity allocation unit 8, a selection module of the logarithmic signal module 9, a potentiation unit 10, a divider 11. The output of the detector 5 is connected to the input of the logarithmic conversion unit 7 and the second divider input 11, and its output - with the input of the display unit 6, the output of the logarithmic conversion unit 7 is connected to the second input of the allocation unit 9 of the logarithmic signal module. The device works as follows. The mechanism for setting cyclic loading periodically affects the test object, as a result of which fatigue failures occur in the test object, accompanied by the formation of microcracks at the beginning, and then macrocracks, and the accompanying acoustic emission noise. Converter 1 converts them into an electrical signal that goes to preamplifier 2 and then to amplifier 3. An acoustic emission signal is a complex random signal consisting of three frequency components: x (t) reflecting the deformation process of the test object with a cyclic period. loading / y (t) - some unknown periodic function of time; z (t) is a random function of time caused solely by the formation of new cracks in the process of fatigue failure. In this case, the summed detection signal of the acoustic emission w (t) has the following form: NWCt) | y (i) K1V (4:) 4fb (t) |, where / ci - (- fe7 () tf4 ( -bV I is a convolution or product function. From the output of amplifier 3, the signal enters the input of a filter bank 4 separating the known fundamental and multiple harmonic components. The signal detected in detector 5, containing unknown periodic and random components, is fed to the input of block 7 is logarithmic; the Chesky transform for logarithmic separation as well as to the second input of the divider 11, realizing Converting signals into their relationship to further isolate the non-periodic random component of the signal. the periodicity receives the value of the selected current period to the first input of the block 9 of the selection of the logarithmic module of the signal, at its output a selected logarithmic periodic signal is formed l This signal is fed to the input of the potentiation unit 10, from the output of which, to the first input of the divider 11, there comes a completely divided signg, containing only the initial periodic computation. If there is no random non-periodic component in the initial signal at the output of the divider 11, the signal will not be observed.

Therefore, since the function | y (t) / is periodic, the 16d / y (t) / + log / z (t) / separation operation is performed by determining the current periodicity of this signal and extracting the function logjfy (t) / . Potentiation of the selected function log / y (t) and comparison of / y (t) / in relation to the INITIAL signal results in a signal jz (t) /, which is an acoustic emission signal | caused by the formation of new cracks due to the fatigue loosening of the material of the test object. .

Thus, the proposed device allows to increase the efficiency of monitoring due to the emission of acoustic emission signals produced by the formation of new cracks.

Claims (1)

DEVICE FOR ACOUSTIC EMISSION CONTROL OF MATERIALS UNDER CYCLIC LOAD, containing a series-connected converter, preamplifier, amplifier, filter unit, detector and indication unit, characterized in that, in order to expand its functionality, it is equipped with a logarithmic conversion unit connected in series, an allocation unit frequency, block allocation of the logarithmic signal module, potentiation unit, divider, the output of the detector is connected to the input of the block logarithmic Skog conversion and compare the second input of the divider and its output - to the input of the indication unit, the output of the logarithmic block preob-. of education is connected to the second input of the block allocation of the logarithmic signal module. SU „1010548 | 010548