A New Non-destructive Technique for Hydrogen Level Assessment in Zirconium Alloys using EMAR Method
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概要
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In order to study the applicability of EMAR (electromagnetic acoustic resonance) method to non-destructive hydrogen level assessment in fuel spacer bands at pool side, an ultrasonic transmitter and receiver together with an EMAT (electromagnetic transducer) were used. Unirradiated Zircaloy-2 thin plates were hydrogen charged for the measurements. An irradiated fuel cladding tube was also used to examine the detection sensitivity of the resonance spectrum of the irradiated material. The following results were obtained. Acoustic anisotropy Δf, defined by using two resonance frequencies for shear waves with different polarization, was adopted as a parameter to express the ultrasonic resonance property. A hydrogen concentration dependence of Δf was observed in the range up to 1,200 ppm. Specimen thickness and oxide thickness were found to have negligible effect, on Δf, and liftoff of the sensor up to 1 mm did not affect the Δf value. The acoustic anisotropy proposed in this paper was not sensitive to any of specimen dimension, surface condition, or sensor liftoff.
- 一般社団法人 日本原子力学会の論文
- 2006-09-25
著者
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ISHIMOTO Shinji
Global Nuclear Fuel-Japan
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ISHII Yoshiaki
Tokyo Electric Power Co.
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MIYAZAKI Akihiro
Tokyo Electric Power Co.
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NAKATSUKA Masafumi
Nippon Nuclear Fuel Development Co., Ltd.
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NAKATSUKA Masafumi
Global Nuclear Fuel-Japan
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Nakatsuka Masafumi
Nippon Nuclear Fuel Development Co. Ltd.
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Nakatsuka Masafumi
Global Nuclear Fuel-japan Co. Ltd.
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Ishii Yoshiaki
Tokyo Electric Power Company
関連論文
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- Effect of Hydrogen Water Chemistry on Zircaloy-2 Fuel Cladding and Structure Material Performance
- Annealing Study on Neutron Irradiation Effects in Resonance Frequencies of Zircaloy Plates by EMAR Method
- Interpretation of Acoustic Parameters Obtained by EMAR Measurement for Non-destructive Hydrogen Concentration Measurement in Zr Alloy
- A New Non-destructive Technique for Hydrogen Level Assessment in Zirconium Alloys using EMAR Method
- Crystallography of Zirconium Hydrides in Recrystallized Zircaloy-2 Fuel Cladding by Electron Backscatter Diffraction
- Terminal Solid Solubility of Hydrogen in Unalloyed Zirconium by Differential Scanning Calorimetry
- Development of the Ultra-microhardness Technique for Post Irradiation Examination of Fuel Cladding Tubes
- Stress Reorientation of Hydrides in Recrystallized Zircaloy-2 Sheet
- Measurements of friction coefficient and strain concetration of barriered fuel claddings under mechanical interaction with pellets.
- Reduction of plastic anisotropy of zircaloy cladding by neutron irradiation. (I). Yield loci obtained from knoop hardness.:Yield Loci Obtained from Knoop Hardness
- Effect of oxygen content on tensile properties of low oxygen zircaloy-2.
- Reduction of plastic anisotropy of zircaloy cladding by neutron irradiation. (II). Numerical simulations of yield loci.:Numerical Simulations of Yield Loci
- Effect of iodine on fatigue properties of zircaloy-2 fuel cladding under cyclic tensile stress.