SU794499A2 - Method of detecting developing crack - Google Patents

Description

one

This invention relates to non-destructive testing using acoustic emission.

According to the main author. St. No. 629497. There is a known method for detecting a developing crack, which consists in preliminarily exciting elastic oscillations at various points of the tested product and determining their parameters relative to a common reception point, receiving acoustic emission signals, comparing their parameters with the previously obtained elastic oscillation parameters, determining the coordinates of the source of acoustic emission, use the spectral parameters of the oscillations simultaneously with the determination of the coordinates of the source, restore the spectrum of the signal acoustic on it, and according to it, there is a growing crack 1.

The disadvantage of this method is the low reliability of crack detection, since it does not allow to isolate groups of pulses arriving at transducers, among which there are pulses of interference or from another source of acoustic emission.

The purpose of the invention is to increase the reliability of crack detection,

This goal is achieved due to the fact that the reconstructed spectra of acoustic emission signals received by each transducer are compared with each other and, according to the degree of their identity, are judged on the reliability.

The method is as follows. Using a measurer of the transfer characteristic of the product, including, for example, an emitter of acoustic signals with a uniform emission spectrum in the frequency band under study and a spectrum analyzer, the transfer characteristics to each reception point are alternately measured at several points of the object under test. Information about the coordinates of the emission point and the corresponding transfer characteristic of the product is memorized.

Acoustic emission signals are received and source coordinates are determined. At the same time, the spectral densities of the signals are measured, which form the necessary pulse sequence for calculating the coordinates. Then, the reconstructed spectra of the acoustic emission signals are measured using information about the transfer characteristic of the product and the measured spectrum of the source signal with a specific coordinate.

They compare the reconstructed spectra in each reception channel and, if they coincide, they consider that the coordinates of the acoustic emission source are determined correctly.

The use of this method allows to significantly increase the reliability of the detection of developing cracks, and consequently, the quality of control products.

Claims (1)

1. USSR author's certificate No. 629497, cl. G 01N 29/04, 1978 (prototype).