High-temperature (>500/spl deg C) ultrasonic transducers: an experimental comparison among three candidate piezoelectric materials

Parks D.A.; Zhang S.; Tittmann B.R.

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High-temperature (>500/spl deg C) ultrasonic transducers: an experimental comparison among three candidate piezoelectric materials

机译：高温（> 500 / spl℃）超声换能器：三种候选压电材料的实验比较

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High-temperature piezoelectric crystals, including YCa₄O(BO₃)₃, LiNbO3, and AlN, have been studied for use in ultrasonic transducers under continuous operation for 55 h at 550_u000b0;C. Additionally, thermal ratcheting tests were performed on the transducers by subjecting the crystals to heat treatments followed by ultrasonic performance testing at room temperature and 500_u000b0;C. The changes resulting from the heat treatments were less than the statistical spread obtained in repeated experiments and were thus considered negligible. Finally, in situ measurements of the pulse-echo response of YCa₄O(BO₃)₃ were performed at temperatures up to 950_u000b0;C for the first time, showing stable characteristics up to these high temperatures.

机译：研究了高温压电晶体，包括YCa _{4 O（BO _{3 ）_{3 ，LiNbO3和AlN，用于超声换能器在550 _{u000b0; C下连续运行55小时另外，对换能器进行热棘轮测试，方法是对晶体进行热处理，然后在室温和500℃下进行超声性能测试。热处理引起的变化小于重复实验获得的统计范围，因此认为可以忽略不计。最后，在高达950 4 O（BO _{3 ）_{3 的脉冲回波响应进行了原位测量> u000b0; C，在这些高温下仍显示出稳定的特性。}}}}}}

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《Ultrasonics, Ferroelectrics and Frequency Control, IEEE Transactions on》 |2013年第5期|1010-1015|共6页
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Parks D.A.; Zhang S.; Tittmann B.R.;
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The Pennsylvania State University, University Park;

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1. A hybrid 6H-SiC temperature sensor operational from 25/spl deg/C to 500/spl deg/C [J] . Casady J.B., Dillard W.C. IEEE transactions on components, packaging, and manufacturing technology. Part A . 1996,第3期

机译：混合6H-SiC温度传感器，工作温度为25 / spl deg / C至500 / spl deg / C
2. High-SPL Air-Coupled Piezoelectric Micromachined Ultrasonic Transducers Based on 36% ScAlN Thin-Film [J] . Yuri Kusano, Itaru Ishii, Tatsuya Kamiya, IEEE Transactions on Ultrasonics, Ferroelectrics, and Frequency Control . 2019,第9期

机译：基于36％ScAlN薄膜的高SPL空气耦合压电微加工超声换能器
3. High-temperature (>500u000b0;c) wall thickness monitoring using dry-coupled ultrasonic waveguide transducers [J] . Cegla F.B., Cawley P., Allin J., Ultrasonics, Ferroelectrics and Frequency Control, IEEE Transactions on . 2011,第1期

机译：使用干耦合超声波导换能器监控高温（> 500u000b0; c）壁厚
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机译：超声换能器模拟铁电，压电和松弛材料的比较
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机译：超声换能器应用的压电复合材料。
6. Analysis of a Cascaded Piezoelectric Ultrasonic Transducer with Three Sets of Piezoelectric Ceramic Stacks [O] . Xiangdi Meng, Shuyu Lin 2019

机译：具有三组压电陶瓷叠层的层叠压电超声传感器的分析
7. High-Temperature (> 500 degrees C) Wall Thickness Monitoring Using Dry-Coupled Ultrasonic Waveguide Transducers [O] . Cegla, FB, Cawley, P, Allin, J, 2011

机译：使用干耦合超声波波导传感器监测高温（> 500摄氏度）壁厚
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机译：使用pVF2压电薄膜的实验宽带超声换能器。

High-temperature (>500/spl deg C) ultrasonic transducers: an experimental comparison among three candidate piezoelectric materials

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