Mechanical Properties and Microstructure Changes of Low-activation 3Cr-2W-V-Ti Ferritic Steels Developed for Nuclear Applications
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概要
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The effects of alloying elements such as Cr, W, V and Mn on tensile strength at elevated temperatures, creep-rupture properties and toughness of low activation (2.25-3)Cr-(2-2.5)W-V-Ti steels were investigated together with their microstructure change during high temperature exposure. These steels were normalized to produce bainitic structures in the same manner as that for a conventional 2.25Cr-1Mo steel. They presented superior tensile strength at elevated temperatures and creep-rupture strength in comparison with a conventional 2.25Cr-1Mo steel. The creep-rupture strength of the steels at 500°C for 100000 h demonstrated about twice that of the conventional 2.25Cr-1Mo steel. The 3Cr-2.5W-0.2V-0.01Ti steel is recommended as a potential low activation ferritic steel for nuclear applications with well optimized mechanical properties, such as tensile strength at elevated temperatures, creep-rupture strength and toughness. The effects of alloying elements were discussed with correlating microstructural and mechanical aspects.
著者
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ASAKURA Kentaro
Department of Materials Engineering, The University of Tokyo
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Kohyama Akira
Department Of Gynecology Tokyo Metropolitan Fuchu Hospital
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Asakura Kentaro
Department of Materials Science, The University of Tokyo
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Yamada Takemi
Steel Research Center, NKK Corporation
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