带AlN换能器的反应堆堆芯超声波无损检测

2012 IEEE International Instrumentation and Measurement Technology Conference Proceedings Pub Date : 2012-05-13 DOI:10.1109/I2MTC.2012.6229179

D. Parks, B. Tittmann

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引用次数: 1

摘要

在辐射环境下，超声无损评价在提高反应堆安全性和加深对辐射效应和材料的认识方面具有很大的潜力。在核电站和材料试验堆中，高温和高水平的辐射对超声波无损检测方法提出了挑战。这些挑战主要是由于所使用的超声波传感器的退化。我们介绍了由块状单晶AlN组成的超声压电换能器在核反应堆堆芯中超过120兆瓦时的工作结果。换能器被耦合到一个铝筒上，并在整个辐照过程中以脉冲回波模式工作。在脉冲回波测试的基础上，获得了阻抗数据。此外，在辐照前测量了压电系数d33，发现其为5.5 pC/N，与生长样品没有变化，实际上高于许多生长样品的测量值d33。

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Ultrasonic NDE in a reactor core with an AlN transducer

In radiation environments ultrasonic nondestructive evaluation has great potential for improving reactor safety and furthering the understanding of radiation effects and materials. In both nuclear power plants and materials test reactors, elevated temperatures and high levels of radiation present challenges to ultrasonic NDE methodologies. The challenges are primarily due to the degradation of the ultrasonic sensors utilized. We present results from the operation of an ultrasonic piezoelectric transducer, composed of bulk single crystal AlN, in a nuclear reactor core for over 120 MWHrs. The transducer was coupled to an aluminum cylinder and operated in pulse echo mode throughout the irradiation. In addition to the pulse echo testing impedance data was obtained. Further, the piezoelectric coefficient d33 was measured prior to irradiation and found to be 5.5 pC/N which is unchanged from as-grown samples, and in fact higher than the measured d33 for many as-grown samples.

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2012 IEEE International Instrumentation and Measurement Technology Conference Proceedings

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