Applied Sciences (Oct 2021)

Empirical Approach to Defect Detection Probability by Acoustic Emission Testing

  • Vera Barat,
  • Artem Marchenkov,
  • Valery Ivanov,
  • Vladimir Bardakov,
  • Sergey Elizarov,
  • Alexander Machikhin

DOI
https://doi.org/10.3390/app11209429
Journal volume & issue
Vol. 11, no. 20
p. 9429

Abstract

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Estimation of probability of defect detection (POD) is one of the most important problems in acoustic emission (AE) testing. It is caused by the influence of the material microstructure parameters on the diagnostic data, variability of noises, the ambiguous assessment of the materials emissivity, and other factors, which hamper modeling the AE data, as well as the a priori determination of the diagnostic parameters necessary for calculating POD. In this study, we propose an empirical approach based on the generalization of the experimental AE data acquired under mechanical testing of samples to a priori estimation of the AE signals emitted by the defect. We have studied the samples of common industrial steels 09G2S (similar to steel ANSI A 516-55) and 45 (similar to steel 1045) with fatigue cracks grown in laboratory conditions during cyclic testing. Empirical generalization of data using probabilistic models enables estimating the conditional probability of record emissivity and amplitudes of AE signals. This approach allows to eliminate the existing methodological gap and to build a comprehensive method for assessing the probability of fatigue cracks detection by the AE testing.

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