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Ultra-high temperature tensile properties of ODS steel claddings under severe accident conditions

シビアアクシデント評価のためのODS鋼被覆管の超高温引張特性

矢野 康英  ; 丹野 敬嗣  ; 岡 弘   ; 大塚 智史   ; 井上 利彦 ; 加藤 章一 ; 古川 智弘  ; 上羽 智之 ; 皆藤 威二 ; 鵜飼 重治*; 大野 直子*; 木村 晃彦*; 林 重成*; 鳥丸 忠彦*

Yano, Yasuhide; Tanno, Takashi; Oka, Hiroshi; Otsuka, Satoshi; Inoue, Toshihiko; Kato, Shoichi; Furukawa, Tomohiro; Uwaba, Tomoyuki; Kaito, Takeji; Ukai, Shigeharu*; Ono, Naoko*; Kimura, Akihiko*; Hayashi, Shigenari*; Torimaru, Tadahiko*

シビアアクシデント時におけるODS鋼被覆管とラッパ管材料の引張特性を調べることを目的に、室温から融点近傍の1400$$^{circ}$$Cまでの引張試験を実施した。900$$sim$$1200$$^{circ}$$Cまでの超高温での引張特性は他の炉心材料と比較し優れた特性を有していたが、それ以上の超高温温度域になると急激な特性低下が認められた。この強度低は、$$gamma$$/$$delta$$変態を伴って、変形メカニズムが伸びの低下を伴う粒界すべりに変化することに起因すると考えられる。一方、12Cr-ODS鋼とFeCrAl-ODS鋼では、1200$$^{circ}$$C以上でも急激な低下は生じず、高い強度を維持していた。本研究成果の一部は、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」を含む。

Ultra-high temperature ring tensile tests were carried out to investigate the tensile behavior of oxide dispersion strengthened (ODS) steel claddings and wrapper materials under severe accident conditions; temperatures ranged from room temperature to 1400$$^{circ}$$C which is near the melting point of core materials. The experimental results showed that tensile strength of 9Cr-ODS steel claddings was highest in the core materials at the ultra-high temperatures between 900 and 1200$$^{circ}$$C, but that there was significant degradation in tensile strength of 9Cr-ODS steel claddings above 1200$$^{circ}$$C. This degradation was attributed to grain boundary sliding deformation with $$gamma$$/$$delta$$ transformation, which was associated with reduced ductility. On the other hand, tensile strength of recrystallized 12Cr-ODS and FeCrAl-ODS steel claddings retained its high value above 1200 $$^{circ}$$C unlike the other tested materials. Present study includes the result of "R&D of ODS ferritic steel fuel cladding for maintaining fuel integrity at the high temperature accident condition" entrusted to Hokkaido University by the Ministry of Education, Culture, Sports, Science and Technology of Japan (MEXT).

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パーセンタイル:97.24

分野:Materials Science, Multidisciplinary

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