Improved Utilization of Added B in 9Cr Heat-Resistant Steels Containing W
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概要
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For the construction of ultra super critical (USC) power plant, 9Cr-3W base ferritic heat-resistant steels with relatively high B and no N have been investigated. Authors have been revealed in the previous report that the addition of 139ppm B significantly improves creep strength of the steels, whereas most of added B forms unidentified borides, which are deemed almost ineffective to creep strength. The effect of improved heat treatment on creep strength and distribution of B in precipitates is investigated to effectively utilize and decrease added B. As a result of the analysis of the extracted residue and characterization of precipitates using field emission Auger electron spectroscopy (FE-AES), most of added B still forms borides in the 92ppm B added steel. These composites are almost dissolved and the B content in M<SUB>23</SUB>C<SUB>6</SUB> carbides is significantly increased by normalizing at 1423K. It is also found by FE-AES analysis that B content in M<SUB>23</SUB>C<SUB>6</SUB> carbides near prior-austenite grain boundaries is relatively higher than that inside grains. Creep strength at 923K for the 92ppm B added steel normalized at 1423K is not improved at short times, but it is remarkably improved to almost the same level as the 139ppm B added steel at long times. This excellent creep strength is achieved resulting in improving microstructural stability through the effective utilization of added B by high-temperature normalizing.
- 社団法人 日本鉄鋼協会の論文
- 2002-03-01
著者
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IGARASHI Masaaki
Corporate Research and Development Laboratories, Sumitomo Metal Industries, Ltd.
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Abe F
Steel Research Center National Institute For Materials Seienee
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Abe Fujio
National Institute Of Materials Science
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Abe Fujio
Structural Metals Center National Institute For Materials Science
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HORIUCHI Toshiaki
Materials Engineering Laboratory, National Institute for Materials Science
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ABE Fujio
Materials Engineering Laboratory, National Institute for Materials Science
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Igarashi Masaaki
Corporate R & D Lab. Sumitomo Metal Industries Ltd.
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Horiuchi Toshiaki
Materials Engineering Laboratory National Institute For Materials Science
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