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The Effect of final heat treatment at fabrication on the terminal solid solubility of hydrogen in Zry-4

製造時最終熱処理条件がジルカロイ4の水素固溶限に及ぼす影響

山内 紹裕*; 天谷 政樹

Yamauchi, Akihiro*; Amaya, Masaki

Zry-4被覆管の昇温時の水素固溶限に及ぼす製造時最終熱処理の影響を調べるため、予備水素吸収させた冷間加工、応力除去焼きなまし、再結晶焼鈍しZry-4被覆管を用いたDSC測定を50-600$$^{circ}$$Cの範囲で実施した。得られたDSC曲線及び金相写真から、水素化物の初期状態が水素化物の固溶挙動に影響を与えることが示唆された。本試験で得られたTSSD温度及び水素濃度のアレニウスプロットより、冷間加工材が最大のTSSDを示し、次いで応力除去焼きなまし材、再結晶焼きなまし材の順であることがわかった。本試験の結果は、Zry-4被覆管の製造時最終熱処理に起因する微細組織の違いが水素化物の固溶挙動に影響を及ぼすことを示唆した。

Differential scanning calorimetry (DSC) measurements on pre-hydrided cold worked, stress relieved and recrystallized Zry-4 cladding were performed in a temperature range between 50 and 600$$^{circ}$$C in order to elucidate the effect of final heat treatment at fabrication of Zircaloy-4 (Zry-4) cladding on the terminal solid solubility during the dissolution of zirconium hydrides at heating up (TSSD). Obtained DSC curves and Metallography indicate that the initial state of hydrides affects the dissolution behavior of hydride. The Arrhenius plots of the TSSD temperatures and hydrogen contents obtained from this study revealed that cold worked samples exhibited the largest TSSD and followed by stress relieved and recrystallized samples. The results of this study indicated that the difference in microstructure due to final heat treatment at fabrication of Zry-4 cladding affects the dissolution behavior of hydrides.

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