Archivio Istituzionale della RicercaThis work focuses on analyzing acoustic emission (AE) signals as a means to predict failure in structures. There are two main approaches that are considered: (i) long-range correlation analysis using both the Hurst (H) and the detrended fluctuation analysis (DFA) exponents, and (ii) natural time domain (NT) analysis. These methodologies are applied to the data that were collected from two application examples: a glass fiber-reinforced polymeric plate and a spaghetti bridge model, where both structures were subjected to increasing loads until collapse. A traditional (AE) signal analysis was also performed to reference the study of the other methods. The results indicate that the proposed methods yield reliable indication of failure in the studied structures.
Long-Range Correlations and Natural Time Series Analyses from Acoustic Emission Signals / Friedrich, L. F.; Cezar, E. S.; Colpo, A. B.; Tanzi, B. N. R.; Sobczyk, M.; Lacidogna, G.; Niccolini, G.; Kosteski, L. E.; Iturrioz, I.. - In: APPLIED SCIENCES. - ISSN 2076-3417. - STAMPA. - 12:4(2022), p. 1980. [10.3390/app12041980]
Long-Range Correlations and Natural Time Series Analyses from Acoustic Emission Signals
Lacidogna G.;Niccolini G.;Iturrioz I.
2022
Abstract
This work focuses on analyzing acoustic emission (AE) signals as a means to predict failure in structures. There are two main approaches that are considered: (i) long-range correlation analysis using both the Hurst (H) and the detrended fluctuation analysis (DFA) exponents, and (ii) natural time domain (NT) analysis. These methodologies are applied to the data that were collected from two application examples: a glass fiber-reinforced polymeric plate and a spaghetti bridge model, where both structures were subjected to increasing loads until collapse. A traditional (AE) signal analysis was also performed to reference the study of the other methods. The results indicate that the proposed methods yield reliable indication of failure in the studied structures.
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https://hdl.handle.net/11583/2958664