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Effects of thermal aging on the mechanical properties of FeCrAl-ODS alloy claddings

FeCrAl-ODS鋼被覆管の強度特性に及ぼす熱時効の影響について

矢野 康英 ; 丹野 敬嗣 ; 大塚 智史 ; 皆藤 威二 ; 鵜飼 重治*

Yano, Yasuhide; Tanno, Takashi; Otsuka, Satoshi; Kaito, Takeji; Ukai, Shigeharu*

FeCrAl-ODS鋼被覆管を製作し、その被覆管の熱時効の影響を調査するために、450$$^{circ}$$C,5000時間と15000時間の熱時効後に、硬さ試験,リング引張試験,TEM観察を実施した。全てのFeCrAl鋼被覆管で熱時効硬化が確認され、延性低下を伴う顕著な強度上昇も生じた。熱時効硬化挙動は(Ti, Al)リッチ相($$beta$$'相)析出とAl7wt%未満の場合は$$alpha$$'相析出も起因していると考えられる。同様の組成をもつFeCrAl-ODS鋼を比較した場合、再結晶材と未再結晶材で熱時効硬化は生じるが、後者は延性低下を伴わないことが明らかになった。この挙動の差は、結晶粒界,転位密度,試験片作製方向の影響が起因していると考えられる。本研究は、文部科学省の原子力システム研究開発事業による委託業務として、北海道大学が実施した平成25$$sim$$28年度「事故時高温条件での燃料健全性確保のためのODSフェライト鋼燃料被覆管の研究開発」の中で北海道大学からの委託により原子力機構が実施した研究成果である。

The FeCrAl-ODS alloy claddings were manufactured and Vickers hardness, ring tensile tests and TEM observations of these claddings were performed to investigate the effects of thermal aging at 450 $$^{circ}$$C for 5,000 and 15,000 h. The age-hardening of all FeCrAl-ODS alloy cladding was found. In addition, the significant increase in tensile strength was accompanied by much larger loss of ductility. It was suggested that this age-hardening behavior was attributed to the (Ti, Al)-enriched phase ($$beta$$' phase) and the $$alpha$$' phase precipitates (content of Al is $$<$$ 7 wt%). In comparison with FeCrAl-ODS alloys with almost same chemical compositions, there was significant age-hardening in both alloys. However, the extrusion bar with no-recrystallized structures was keeping good ductility. It was suggested that this different behavior of reduction ductility was attributed to the effects of grain boundaries, dislocation densities and specimen preparation direction.

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