首页> 外文会议>IEEE International Ultrasonics Symposium >Investigation of Cavitation Bubble Influence on Frequency Spectrum of Fiber Optic Probe Hydrophone Output

【24h】

Investigation of Cavitation Bubble Influence on Frequency Spectrum of Fiber Optic Probe Hydrophone Output

机译：空化气泡对光纤探头水听器输出频谱影响的研究

获取原文

页面导航

摘要
著录项
相似文献
相关主题

摘要

Authors consider that a reflection type fiber optic probe hydrophone (FOPH) is suitable for the absolute sound pressure measurement under cavitation at high ultrasonic emission like ultrasonic cleaning machine or sonochemical reactor. The precision of the FOPH at higher sound pressure is almost same as the conventional piezoelectric type hydrophone beyond 100kHz. However, the measurement accuracy of the FOPH below 100kHz becomes lower due to cavitation bubbles. The cavitation bubbles give large refractive index variation at the probe point of FOPH. And, hence, impulse distortion appears in the output signal and the measurement accuracy becomes lower. Therefore, the sound measurement below 100kHz has not been examined fully yet. In this report, distortion components of output wave signal in FOPH under cavitation are examined. Moreover, the component caused by cavitation is found.

机译：作者认为反射型光纤探针水听器（FOPH）适用于在高超声发射下的空化条件下的绝对声压测量，例如超声清洗机或声化学反应器。 FOPH在较高声压下的精度与100kHz以上的常规压电式水听器几乎相同。但是，由于气蚀气泡，低于100kHz的FOPH的测量精度会降低。空化气泡会在FOPH的探测点产生较大的折射率变化。因此，在输出信号中出现脉冲失真，并且测量精度降低。因此，尚未完全检查100kHz以下的声音测量。在此报告中，研究了汽蚀下FOPH中输出波信号的失真分量。此外，发现了由气蚀引起的成分。

著录项

来源
《IEEE International Ultrasonics Symposium》|2020年|1-4|共4页
会议地点
作者
Koh Kimura; Sou Takeuchi; Yoshikazu Koike;
展开▼
作者单位

展开▼
会议组织
原文格式 PDF
正文语种
中图分类
关键词
ultrasonic cleaning; cavitation; hydrophone; fiber optic probe hydrophone; ultrasonic transducer; sound pressure measurement; harmonics;

机译：超声波清洗;气蚀;水听器;光纤探头水听器;超声换能器;声压测量;谐波;

相似文献

外文文献
中文文献
专利

1. Single bubble sonoluminescence: Investigations of the emitted pressure wave with a fiber optic probe hydrophone [J] . Wang ZQ., Gompf B., Eisenmenger W., Physical review, E. Statistical physics, plasmas, fluids, and related interdisciplinary topics . 1999,第2aPta1期

机译：单泡声致发光：用光纤探头水听器研究压力波的发射
2. Relationship between acoustic cavitation bubble behavior and output signal from tough hydrophone using high-speed camera in high-frequency and low-frequency acoustic fields [J] . Okada Nagaya, Shiiba Michihisa, Yamauchi Shinobu, Japanese journal of applied physics . 2018,第7S1期

机译：高频和低频声场中声空化气泡行为与强水听器使用高速摄像机的输出信号之间的关系
3. Frequency response of fiber-optic multilayer hydrophones:experimental investigation and finite element simulation [J] . Weise W., Wilkens V., Koch C. IEEE Transactions on Ultrasonics, Ferroelectrics, and Frequency Control . 2002,第7期

机译：光纤多层水听器的频率响应：实验研究与有限元模拟
4. Broadband fiber optic ultrasound hydrophone probe [C] . Mu, C., Umchid, . 2004

机译：宽带光纤超声水听器探头
5. Optimization of wideband fiber optic hydrophone probe for ultrasound sensing applications. [D] . Minasamudram, Rupa Gopinath. 2010

机译：优化了用于超声传感应用的宽带光纤水听器探头。
6. A comparison of light spot hydrophone and fiber optic probe hydrophone for lithotripter field characterization [O] . N. Smith, G. N. Sankin, W. N. Simmons, -1

机译：光斑水听器与光纤探针水听器在碎石场表征中的比较
7. A comparison of light spot hydrophone and fiber optic probe hydrophone for lithotripter field characterization [O] . N. Smith, G. N. Sankin, W. N. Simmons, 2012

机译：光点水听器和光纤探头水听力的比较，用于岩石式场特征
8. Fiber-Optic Sonobuoy Link Development -FY 78. Fiber-Optic Components for an Optical Data Link to Interconnect the Submerged Hydrophone Package with the Surface Transmitter of a 5-km Depth Sonobuoy. [R] . eastley, r. a. putman, w. h. 1979

机译：光纤sonobuoy Link开发-FY 78.用于光学数据链路的光纤元件，用于将浸入式水听器组件与5 km深度sonobuoy的表面发射器互连。

Investigation of Cavitation Bubble Influence on Frequency Spectrum of Fiber Optic Probe Hydrophone Output

摘要

著录项

相似文献

相关主题

期刊订阅