Dependence of Precipitation Behavior and Creep Strength on Cr Content in High Cr Ferritic Heat Resistant Steels
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概要
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It is known that high temperature tensile strength increases with increasing Cr content in Cr containing heat resistant steels. Recently, however, it was found that long-term creep strength decreased with increasing Cr content in the heat resistant steels containing 8.5-12%Cr. In this study, precipitation behavior of M23C6 carbide and the Z phase after creep tests was investigated using two kinds of high Cr ferritic steels (9Cr and 10.5Cr). As a result, 10.5Cr steel exhibited larger average particle size of M23C6 than 9Cr steel irrespective of creep stress levels, but the amount of M23C6 carbide was almost the same in both steels. On the other hand, the amount of the Z phase became large in 10.5Cr steel compared with 9Cr steel. These experimental results indicate that high level of Cr content accelerates precipitation and coalescence rate of both M23C6 carbide and the Z phase, resulting in degradation of long term creep strength in 10.5 Cr steel compared to 9Cr steel.
著者
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Hara Toru
National Institute For Material Science
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Azuma Tsukasa
Muroran Research Laboratory The Japan Steel Works Ltd.
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Morinaga Masahiko
Graduate School Of Engineering Nagoya Univ.
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MORINAGA Masahiko
Graduate School of Engineering, Nagoya University
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MURATA Yoshinori
Graduate School of Engineering, Nagoya University
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YAMASHITA Koji
Graduate Student, Nagoya University
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MIKI Kazuhiro
Muroran Research Laboratory, Japan Steel Works Ltd.
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ISHIGURO Toru
Institute of Multidisciplinary Research for Advanced Materials, Tohoku University
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HASHIZUME Ryokichi
Power Engineering R&D Center, The Kansai Electric Power Co. Inc.
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HASHIZUME Ryokichi
Power Engineering R&D Center, The Kansai Electric Power Co. Inc.
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