Development of Reduced-Activation Martensitic 9Cr Steels for Fusion Reactor
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概要
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In order to develop reduced-activation ferritic/martensitic steels potentially suitable for fusion reactor applications, the effect of principal alloying elements Cr, W and V on the micro-structural evolution, toughness and high-temperature creep strength was systematically investigated for relatively simple Cr-W-V steels. Based on the results on the simple steels, two kinds of martensitic 9Cr steels with low and high levels of W were alloy-designed : 9Cr-1WVTa and 9Cr-3WVTa. They exhibited excellent toughness and high-temperature strength. Irradiation hardening was the smaller for the reduced-activation 9Cr-1WVTa and 9Cr-3WVTa steels than for the conventional 9Cr-1MoVNb and it was smaller for the low W steel than for the high W steel. It is concluded that from the aspect of toughness the 9Cr-1WVTa steel is the most promising alloy for the first wall and blanket structures which will be operated at low temperatures below 773 K (500°C). Another 9Cr-3WVTa steel is the most promising in terms of high-temperature creep strength for the future power reactor structures which will be operated at temperatures higher than 773 K.
著者
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ARAKI Hiroshi
Tsukuba Laboratories, National Research Institute for Metals
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NODA Tetsuji
Tsukuba Laboratories, National Research Institute for Metals
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OKADA Masatoshi
Tsukuba Laboratories, National Research Institute for Metals
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Abe Fujio
Tsukuba Laboratories National Research Institute For Metals
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Okada Masatoshi
Tsukuba Laboratories National Research Institute For Metals
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