Abstract
Recently, there has been a growing interest in deploying smart materials as sensing components of structural health monitoring systems. In this arena, piezoelectric materials offer great promise for researchers to rapidly expand their many potential applications. The main goal of this study is to review the state-of-the-art piezoelectric-based sensing techniques that are currently used in the structural health monitoring area. These techniques range from piezoelectric electromechanical impedance and ultrasonic Lamb wave methods to a class of cutting-edge self-powered sensing systems. We present the principle of the piezoelectric effect and the underlying mechanisms used by the piezoelectric sensing methods to detect the structural response. Furthermore, the pros and cons of the current methodologies are discussed. In the end, we envision a role of the piezoelectric-based techniques in developing the next-generation self-monitoring and self-powering health monitoring systems.
Highlights
Structural health monitoring (SHM) systems are vital elements of smart civil infrastructure
We present the most widely used approaches based on piezoelectric wafer active sensors (PWASs) and Stanford Multiactuator–Receiver Transduction Technology (SMART)
This study presented an overview of piezoelectric sensing techniques for structural health monitoring (SHM) systems
Summary
Structural health monitoring (SHM) systems are vital elements of smart civil infrastructure. SHM is a systematic identification of damage in a structure using time-varying data outputted over time [1,2]. SHM methods for continuous monitoring, acquisition, validation and analysis of technical data to facilitate life-cycle management decisions [2,5,6,7]. A number of SHM methods based on different principles were developed in the last three decades [8,9,10]. These methods have been used for both global and local damage detection. Wireless sensor networks have revolutionized the traditional high-cost wired SHM systems due to their ease of placement, high spatial resolution and wireless data transmission [11,12,13]
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