An Empirical Study on Transmission Beamforming for Ultrasonic Guided-Wave Based Structural Health Monitoring

Cantero‐Chinchilla, Sergio; Aranguren, Gerardo; Malik, Muhammad Khalid; Etxaniz, Josu; Escalera, Federico Martín de la

doi:10.3390/s20051445

Cited by 13 publications

(9 citation statements)

References 33 publications

(43 reference statements)

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“…Procedure P2, which employs several PWAS, allows for more energy to be transmitted without jeopardizing their integrity. Their use with delayed multiple emission techniques does not create a main beam, as it does in any material with isotropic behavior [ 29 ], but it allows for multiple tests in different directions where the acquired signals show different waveforms ( Figure 15 ). The wave front can be focused on specific direction by tuning the delay between adjacent PWAS.…”

Section: Discussion Of Resultsmentioning

confidence: 99%

“…A more precise test, not shown in this paper, determined that 1.60 µs delay provide the highest amplitudes in reception. This set of tests shows that the delayed multiple emission technique on composite material does not create a main narrow beam, as it does on isotropic materials, while it is named the transmission beamforming technique [ 29 ]. All in all, there is a delay that originates the maximum amplitude in a given direction.…”

Section: Wave Propagationmentioning

confidence: 99%

“…In the study, the same signal is transmitted through all the PWAS, but a delay is added to the signal for each PWAS. Cantero-Chinchilla et al [ 29 ] show a practical study of the application of this technique in aluminum specimens. They report the formation of a main beam with the technique.…”

Section: Introductionmentioning

confidence: 99%

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Ultrasonic Guided Wave Testing on Cross-Ply Composite Laminate: An Empirical Study

Aranguren

Etxaniz

Cantero‐Chinchilla

et al. 2020

Sensors

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Structural health monitoring comprises a set of techniques to detect defects appearing in structures. One of the most viable techniques is based on the guided ultrasonic wave test (UGWT), which consists of emitting waves throughout the structure, acquiring the emitted waves with various sensors, and processing the waves to detect changes in the structure. The UGWT of layered composite structures is challenging due to the anisotropic wave propagation characteristics of such structures and to the high signal attenuation that the waves experience. Hence, very low amplitude signals that are hard to distinguish from noise are typically recovered. This paper analyzes the propagation of guided waves along a cross-ply composite laminate following an empirical methodology. The research compares several implementations for UGWT with piezoelectric wafer active sensors. The reference for comparison is set on a basic mode, which considers the application of nominal voltage to a single sensor. The attenuation and spreading of the waves in several directions are compared when more energy is applied to the monitored structure. In addition, delayed multiple emission is also considered in multisensor tests. The goal of all the UGWT configurations is to transmit more energy to the structure such that the echoes of the emission are of greater amplitude and they ease the signal processing. The study is focused on the realization of viable monitoring systems for aeronautical composite made structures.

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Section: Discussion Of Resultsmentioning

confidence: 99%

Section: Wave Propagationmentioning

confidence: 99%

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Ultrasonic Guided Wave Testing on Cross-Ply Composite Laminate: An Empirical Study

Aranguren

Etxaniz

Cantero‐Chinchilla

et al. 2020

Sensors

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“…The damage index is based on pattern matching using fuzzy logic fundamentals, which provide it with robustness against measurement uncertainties. The adoption of the transmission beamforming technique for SHM entails the collection of large amount of data [ 46 , 51 ]. This allows a more robust damage detection, providing redundancy and ensuring an accurate monitoring in the event of hardware failure, for example, sensor malfunction.…”

Section: Discussionmentioning

confidence: 99%

“…Furthermore, the transmission beamforming technique [ 46 ] has been adopted for the monitoring of the specimen during the fatigue test. Using this technique, synchronously delayed signals were applied to the T

PWAS (refer to Figure 3 a), so that the wave fronts can be constructively summed at a pre-established direction creating a main wave beam [ 47 ].…”

Section: Case Studymentioning

confidence: 99%

Structural Health Monitoring Using Ultrasonic Guided-Waves and the Degree of Health Index

Cantero‐Chinchilla

Aranguren

Royo

et al. 2021

Sensors

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This paper proposes a new damage index named degree of health (DoH) to efficiently tackle structural damage monitoring in real-time. As a key contribution, the proposed index relies on a pattern matching methodology that measures the time-of-flight mismatch of sequential ultrasonic guided-wave measurements using fuzzy logic fundamentals. The ultrasonic signals are generated using the transmission beamforming technique with a phased-array of piezoelectric transducers. The acquisition is carried out by two phased-arrays to compare the influence of pulse-echo and pitch-catch modes in the damage assessment. The proposed monitoring approach is illustrated in a fatigue test of an aluminum sheet with an initial notch. As an additional novelty, the proposed pattern matching methodology uses the data stemming from the transmission beamforming technique for structural health monitoring. The results demonstrate the efficiency and robustness of the proposed framework in providing a qualitative and quantitative assessment for fatigue crack damage.

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Virtual Augmentation of the Beamforming Array Based on a Sub-cross-spectral Matrix Computation for Localizing Stationary Signal Noise Sources

Singh,

Mimani

2024

Acoust Aust

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An Empirical Study on Transmission Beamforming for Ultrasonic Guided-Wave Based Structural Health Monitoring

Cited by 13 publications

References 33 publications

Ultrasonic Guided Wave Testing on Cross-Ply Composite Laminate: An Empirical Study

Ultrasonic Guided Wave Testing on Cross-Ply Composite Laminate: An Empirical Study

Structural Health Monitoring Using Ultrasonic Guided-Waves and the Degree of Health Index

Virtual Augmentation of the Beamforming Array Based on a Sub-cross-spectral Matrix Computation for Localizing Stationary Signal Noise Sources

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