Shear Mode Ultrasonic Transducers from Flexible Piezoelectric PLLA Fibers for Structural Health Monitoring

材料科学 压电 超声波传感器 剪切(地质) 传感器 结构健康监测 声学 极化 复合材料 压电传感器 PMUT公司 水下 光电子学 铁电性 物理 电介质 海洋学 地质学
作者
Yasmin Mohamed Yousry,Voon‐Kean Wong,Rong Ji,Yunjie Chen,Shuting Chen,Xiuying Zhang,David Boon Kiang Lim,Lei Shen,Kui Yao
出处
期刊:Advanced Functional Materials [Wiley]
卷期号:33 (15) 被引量:72
标识
DOI:10.1002/adfm.202213582
摘要

Abstract Shear mode guided waves are highly demanded for underwater structural health monitoring (SHM) applications due to their simplified non‐dispersive feature and minimal acoustic energy loss in the presence of liquid. Excitation and detection of pure shear wave are challenging using conventional piezoelectric materials used in the current ultrasonic transducers because they have complex piezoelectric responses mixed with multiple longitudinal, transverse, and shear modes. They also suffer from aging issue due to depoling. Here, conformable shear mode ultrasonic transducers are designed and made of flexible piezoelectric poly (L‐lactic acid) (PLLA) fibers on both flat and tubular structures. The electromechanical responses over a macroscopic area of the transducers are evaluated in a wide frequency range up to 500 kHz. The PLLA fiber‐based shear mode ultrasonic transducers exhibit a consistent sensitivity of detecting defects in liquid and air. In addition, the only shear mode in PLLA fibers originates from crystal structure without requiring electrical poling to render piezoelectricity, thus does not depole due to aging. The theoretical analyses including ab initio calculations and experimental results on both flat and tubular structures show the great potential of PLLA material and significant advantage of PLLA fiber‐based shear mode ultrasonic transducers for underwater SHM applications.
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