A practical omni-directional SH wave transducer for structural health monitoring based on two thickness-poled piezoelectric half-rings

TL;DR

This paper introduces a practical omni-directional shear horizontal wave transducer based on two thickness-poled piezoelectric half-rings, demonstrating effective, low-cost SH0 wave excitation and reception for structural health monitoring.

Contribution

The study designs and experimentally validates a simple, omni-directional SH wave transducer using two thickness-poled piezoelectric half-rings, enhancing practicality for SHM applications.

Findings

Achieves near-perfect omni-directionality with ~14% deviation.

Maintains SNR over 15dB in 145-200kHz range.

Demonstrates effective SH0 wave excitation and reception.

Abstract

Structural health monitoring (SHM) has become more and more important in modern industries as it can monitor the safety of structures during the full service life and prevent possible losses of life and economics. Shear horizontal wave in plate-like structures is very useful for long distance defects inspection since its fundamental mode (SH0) is totally non-dispersive. However, all the currently available SH wave transducers are not suitable for practical SHM. In this work, we firstly investigated via finite element simulations the performances of thickness-poled d15 PZT ring based omni-directional SH wave piezoelectric transducers (OSH-PT) consisting of different number of elements. Results show that the two half-rings based OSH-PT can have perfect omni-directivity and acceptable performances in excitation/reception of SH0 waves, and its performances can be fairly enhanced by reducing the outer and inner diameters. Experimental results on a 2mm-thick, 21mm outer-diameter, 9mm inner-diameter two-half-ring OSH-PT shows that it has good omni-directional properties with the maximum deviation of ~14% in both excitation and reception of SH0 wave. The signal to noise ratio (SNR) of the OSH-PT in the case of self-excitation and self-reception is over 15dB from 145kHz to 200kHz, which is acceptable for most applications. The proposed two-half-ring OSH-PT is expected to be widely used in SH0 wave based SHM due to its simple structure, easy fabrication/assembling, low cost and acceptable performances.