SU1698747A1 - Method of determination of coordinates of sources of acoustic emission - Google Patents

Abstract

The invention relates to non-destructive testing and can be used to detect defects, for example in welded metal structures, by acoustic emission signals (A3). The aim of the invention is to simplify the method by reducing the operations for identifying the received mode of the AE signal. The identification of the mode of the received signal is carried out according to the ratio of the perforated extremum and maximum of the envelope of the received signal and the value of the velocity of the corresponding mode is used in calculating the coordinates of the AE source. 1 il.

Description

The invention relates to non-destructive testing and can be used to detect defects, for example in welded metal structures, by acoustic emission signals (AE).

The aim of the invention is to simplify the method by reducing the operations for identifying the received mode of the AE signal.

The drawing shows the amplitude response of the received acoustic emission signal.

The method of determining the coordinates of the AE sources is carried out as follows.

The rates of propagation of those modes of the AE signal, by which the signal can be detected, are preliminarily determined. For example, for thin-walled structures, the signal structure usually has the form shown in the drawing, where So and ао are the corresponding Lamb wave modes, and the registration of such signals depending on their amplitude can occur only in one of these modes / in So mode at the discrimination level of P1 and on the mode of discrimination P2 /. Determining the speed of each mode can be done by sending signals of the corresponding amplitude to the simulator attached near one of the two sensors / receivers installed at the monitoring facility, measuring the time intervals between the moments of recording these signals and calculating the speed as a percentage of the base division between the sensors . The amplitude of the signals on the simulator is set in such a way as to ensure stable registration by the appropriate mode, controlling for this the signals in the channels and the levels of discrimination on the oscilloscope. When monitoring, loading the product (for example, by internal pressure), AE signals are received by

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groups of converters and measure the time intervals between the moments of their registration. In addition, the amplitude of the first local extremum of the bending signal AI and the maximum amplitude Ata of the entire signal are measured. From the values of the measured amplitude characteristics, it is determined which mode has been registered. At the same time consider that the registration occurred

in mode So, if - K and in mode a0, if AI

 d ah 1 where K is experimentally determined

Lenna is a constant characterizing the ratio of the amplitudes of the modes a0 and S0. In the case when the amplitude ratio does not satisfy any of the above ratios, a decision may be made to reject this event as an unsatisfying requirement for the reliability of the measured parameters. Depending on the result of the comparison of AI and Atah, for substitution in the formulas for determining the coordinates, choose the value of the velocity of the corresponding mode.

This means that in order to determine which mode of registration occurred, it is sufficient to measure the amplitude AI of the first loop.

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the extremum of the signal envelope and the maximum amplitude of the envelope of the same signal and then evaluate their relationship. The proposed method allows one to simplify the determination of the coordinates of the AE sources by identifying the received mode of the AE signal by the ratio of the first extremum and the maximum of the envelope of the received signal.

Claims (1)

The method of determining the coordinates of the acoustic emission sources, which means that a group of transducers receive acoustic emission signals, measure the time intervals between the received signals, and determine the acoustic emission rates from the measured intervals, taking into account the speed of acoustic waves propagation. the coordinates of the source of these signals, characterized in that, in order to simplify the method, the amplitude of the first local extremum of each envelope is measured That signal and its maximum amplitude, and the received mode of the acoustic emission signal are judged by the ratio of the amplitudes.