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Non-destructive characterization of hydrogen concentration in zircaloy by a low-frequency acoustic microscope

机译：低频声学显微镜，锆氢浓度的非破坏性表征

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Hydrogen embrittlement due to the uptake of hydrogen into zircaloy is one of the major factors in the degradation of ductility for the zircaloy cladding. The characterization of hydrogen concentration (HC) very often relies on destructive methods that are time-consuming and costly. In this research, an ultrasound-based nondestructive evaluation (NDE) technique is reported for the determination of HC in zircalloy tubes. This ultrasound-based NDE technique employs a low-frequency PVDF/LFB transducer operated in a z-scan mode and a Fourier-based signal processing technique. With this technique, a relation between the ultrasound wavespeed and the HC in zircaloy is established. A resolution in measuring the HC with the current technique is demonstrated to be better than 300 ppm.

机译：由于氢气进入锆瓦洛的氢脆是由于锆覆盖物包层的延展性降解的主要因素之一。氢浓度（HC）的表征通常依赖于耗时且昂贵的破坏性方法。在该研究中，报道了基于超声的非破坏性评估（NDE）技术用于测定锆基管中的HC。基于超声的NDE技术采用以Z扫描模式和傅立叶的信号处理技术操作的低频PVDF / LFB换能器。利用这种技术，建立了超声波缺镁和锆石中的HC之间的关系。用电流技术测量HC时的分辨率被证明为优于300ppm。

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《IEEE Symposium on Ultrasonics》|2003年||共4页
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Che-Hua Yang; Ming-Fong Huang;
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中图分类自动化技术、计算机技术;
关键词
acoustic microscopy; hydrogen embrittlement; ultrasonic materials testing; zirconium alloys; acoustic signal processing; ductility; claddings; ultrasound based nondestructive evaluation; hydrogen concentration; low frequency acoustic microscopy; hydrogen embrittlement; zircaloy cladding; Fourier based signal processing technique; zircaloy tubes; z-scan mode; polyvinylidene fluoride; ultrasound wavespeed;

机译：声学显微镜;超声波材料测试;锆合金;声学信号处理;延展性;基于超声波的非破坏性评估;氢浓度;低频声学显微镜;氢气脆化;Zircaloy包层;Zircaloy管;Zircaloy管;Zircaloy管;Zircaloy管;Zircaloy管;Zircaloy管;zirier -Scan模式;聚偏二氟乙烯;超声波缺省;

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专利

1. Characterization of hydrogen concentration in Zircaloy claddings using a low-frequency acoustic microscope with a PVDF/LFB transducer [J] . Yang CH, Huang MF Journal of Nuclear Materials: Materials Aspects of Fission and Fusion . 2004,第3期

机译：使用带有PVDF / LFB传感器的低频声学显微镜表征Zircaloy覆层中的氢浓度
2. Interpretation of Acoustic Parameters Obtained by EMAR Measurement for Non-destructive Hydrogen Concentration Measurement in Zr Alloy [J] . Masafumi NAKATSUKA, Katsuya UCHIDA, Akihiro MIYAZAKI, Journal of nuclear science and technology . 2007,第6期

机译：用EMAR测量获得的声参数用于Zr合金无损氢浓度测量的解释
3. Characterization of hydrogen concentration in Zircaloy-4 using ultrasonic techniques [J] . Gomez MP, Domizzi G, Pumarega MIL, Journal of Nuclear Materials: Materials Aspects of Fission and Fusion . 2006,第3期

机译：使用超声波技术表征Zircaloy-4中的氢浓度
4. Non-destructive characterization of hydrogen concentration in zircaloy by a low-frequency acoustic microscope [C] . Che-Hua Yang, Ming-Fong Huang . 2003

机译：低频声显微镜对锆合金中氢浓度的无损表征
5. The temporal response of chicken hepatic threonine dehydrogenase activity and plasma threonine concentration to threonine imbalance, and characterization of chicken threonine dehydrogenase. [D] . Yuan, Jia-Huey. 2000

机译：鸡肝苏氨酸脱氢酶活性和血浆苏氨酸浓度对苏氨酸失衡的时间响应，以及鸡苏氨酸脱氢酶的特征。
6. Anisotropic hydrogen diffusion in α-Zr and Zircaloy predicted by accelerated kinetic Monte Carlo simulations [O] . Yongfeng Zhang, Chao Jiang, Xianming Bai -1

机译：加速动力学蒙特卡洛模拟预测α-Zr和Zircaloy中的各向异性氢扩散
7. Interpretation of Acoustic Parameters Obtained by EMAR Measurement for Non-destructive Hydrogen Concentration Measurement in Zr Alloy [O] . Masafumi NAKATSUKA, Katsuya UCHIDA, Akihiro MIYAZAKI, 2007

机译：ZR合金中非破坏性氢浓度测量的EMAR测量获得的声学参数的解释
8. Non-Destructive Analysis for Hydrogen Concentrations in Materials. [R] . Meyer, W., Miller, W. H. 1991

机译：材料中氢浓度的无损分析。

Non-destructive characterization of hydrogen concentration in zircaloy by a low-frequency acoustic microscope

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