2P-13 高温におけるレーザ超音波を用いたジルカロイチューブの材料評価(ポスターセッション)

概要

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This research is focused on characterizing Zircaloy cladding tubes in high temperature environment up to 295℃. A procedure corporate with an experimental technique is used to investigate the effects of high temperature on the dispersion spectra of guided waves. A laser ultrasound technique (LUT) is used to measure the dispersions of guided waves propagating along the axial direction of the cladding tubes in different temperature environment. It is shown that the LUT is able to measure the dispersion curve of Zircaloy in the elevated temperature environment. The dispersion spectra shift towards the direction of lower frequency and lower velocity while the temperature increase. With the inversion procedure, material properties such as elastic modulus is successfully characterized in various elevated temperature. The Young's modulus is found to decrease linearly as the temperature increasing. This method is potentially useful to probe the material characterization in high temperature environment in a remote and nondestructive way which is desired in nuclear power industry.
超音波エレクトロニクスの基礎と応用に関するシンポジウム運営委員会の論文
2010-12-06