Estimating the Azimuth of Acoustic Emission Source in Concrete Plate-Like Structures using a Non-Contact Sensor Unit

Location of damage sources is an important aspect of structural health monitoring research. Acoustic emission (AE) technology is broadly concerned due to its potential advantages in damage monitoring and source localization. However, the traditional positioning method is based on the arrival of P wa...

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Bibliographic Details
Published inAcoustical physics Vol. 70; no. 1; pp. 130 - 142
Main Authors Bai, Yunshan, Liu, Yuanxue, Gao, Guangjian, Cui, Dandan, Chen, Han
Format Journal Article
LanguageEnglish
Published Moscow Pleiades Publishing 01.02.2024
Springer Nature B.V
Subjects
Acoustic emission
Acoustics
Acoustics of Structurally Inhomogeneous Solid Media. Geological Acoustics
Azimuth
Bridge decks
Concrete
Damage detection
Damage localization
Direction of arrival
Localization
Localization method
Nonuniformity
P waves
Physics
Physics and Astronomy
Rayleigh waves
Structural health monitoring
Tunnel linings
non-contact
beamforming array
concrete plate-like structures
air-coupled
leaky Rayleigh wave
AE source
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Summary:Location of damage sources is an important aspect of structural health monitoring research. Acoustic emission (AE) technology is broadly concerned due to its potential advantages in damage monitoring and source localization. However, the traditional positioning method is based on the arrival of P wave, and the non-uniformity of concrete materials is not considered, resulting in poor accuracy at large distances. This paper describes a non-contact AE localization method using leaky Rayleigh waves via a new air-coupled MEMS microphones array unit. Compared with traditional contact detection, this method is convenient for rapid setup and monitoring in a wider range. The feasibility of the non-contact AE localization method was verified by numerical simulation and experiments. Azimuth (direction of arrival) of AE source is a key source parameter for damage location. The research shows that this method can determine the azimuth of AE source at different positions, the results are close to the actual coordinates. Non-contact monitoring method proposed in this paper is the basis for further research on the failure prediction of concrete plate-like structures such as tunnel lining and bridge deck .
ISSN:1063-7710
1562-6865
DOI:10.1134/S1063771023601012