Direct-Write Piezoelectric Ultrasonic Transducers for Non-Destructive Testing of Metal Plates

超声波传感器 电容式微机械超声换能器 传感器 声学 材料科学 兰姆波 超声波检测 压电 结构健康监测 压电传感器 无损检测 PMUT公司 工程类 表面波 复合材料 电信 物理 放射科 医学
作者
Zhiyuan Shen,Shuting Chen,Lei Zhang,Kui Yao,Chin Yaw Tan
出处
期刊:IEEE Sensors Journal [IEEE Sensors Council]
卷期号:17 (11): 3354-3361 被引量:46
标识
DOI:10.1109/jsen.2017.2694454
摘要

Current real time structural health monitoring is implemented by assembling multiple discrete sensors on a structure with each sensor providing only point measurement. The installation of the multiple sensors results in high global cost and low reliability. This paper reports the design, directwrite fabrication, and testing of ultrasonic transducers on a plate structure and a non-destructive testing method for detecting defects using the sensor array comprising the direct-write ultrasonic transducers. The transducers are made of piezoelectric poly(vinylidenefluoride/trifluoroethylene) (P(VDF/TrFE)) polymer coatings that are aerosol-spray deposited and patterned directly on the plate structure to be monitored. The ultrasonic transducers bearing annular array comb electrodes are designed for generating and selectively detecting fundamental antisymmetric Lamb-mode ultrasonic waves in the plate structure. The ultrasonic transducers can serve as both the actuators to generate ultrasonic waves and the sensors to detect ultrasonic waves. The ultrasonic waves propagating through the plate structure contain the information about the structural integrity. With copper bars of different thicknesses introduced at the plate center as mock defects of different severity, the correlation between the transducer response and the defect thickness and hence, the severity is verified. It is also demonstrated that four ultrasonic transducers located at the square plate (100 mm×100 mm×1.27 mm) corners forming a transducer array, which can locate the defect on the plate. A short time Fourier transform algorithm and an imaging algorithm are developed for processing signal of the pitch-catch ultrasonic wave spectra to determine the location of the defects, which is verified by experimental results.

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