Camila Gianini Gonsalez-Bueno scite author profile

Structural Health Monitoring (SHM) techniques have an important role in the performance of mechanical structures. In particular, piezoelectric transducers (PZT) have been employed for establishing damage detection processes in SHM systems. However, despite their wide use, there is limited information in the literature regarding important characteristics for SHM applications, such as the shape, dimensions and frequencies to use, which can affect the performance of the system used to detect the damage. This article investigates longitudinal and flexural waves for applications using circular piezoelectric transducers bonded to thin plates. The methodology allows one to obtain optimal frequencies to create and capture both types of waves and understand the influence of the geometric characteristics of these transducers on the damage detection. Numerical simulations are carried out to show that a change in the parameters of the piezoelectric transducers can maximize the waves amplitudes incoming at the sensor. Results from experimental tests are presented to demonstrate the proposed methodology. New equations are introduced and they compute output voltage and determine optimal frequencies to monitor the structure. The findings contribute to establishing a more efficient design of a damage detection process involving plate-like structures in SHM systems based on wave propagation.

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A practical approach to evaluate periodic rods composed of cells with geometric and material periodicity

Santos

Berres

Inman

et al. 2023

Journal of Sound and Vibration

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Camila Gianini Gonsalez-Bueno

On the Frequencies for Structural Health Monitoring in Plates with Symmetrical Damage: An Analytical Approach

Transfer Component Analysis for Compensation of Temperature Effects on the Impedance-Based Structural Health Monitoring

On the frequencies for structural health monitoring in plates with asymmetrical damage: an analytical approach

On the modeling of circular piezoelectric transducers for wave propagation-based structural health monitoring applications

A practical approach to evaluate periodic rods composed of cells with geometric and material periodicity

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