The Effect of Alloy Solidification Path on Sulfide Formation in Fe-Cr-Ni Alloys
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概要
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Solidification and sulfide precipitation in Fe–Cr–Ni alloys were investigated. Five samples containing 0.3 wt% S and 1.5 wt% Mn were investigated and each sample chemistry was adjusted to solidify as primary austenite, primary ferrite or eutectic by tailoring the Cr and Ni contents. The solidification was observed in-situ in a Confocal Scanning Laser Microscope (CSLM) equipped with a gold-image furnace, and the morphology and distribution of sulfides were characterized through SEM and Optical Microscopy. For high Ni and low Cr alloys which solidified in the primary austenite field, sulfides formed in the enriched melt ahead of the dendrite fronts as a eutectic metal-sulfide structure. On the other hand, for high Cr and low Ni alloys which solidified in the primary ferrite field, liquid sulfide phase precipitated in the inter-dendritic enriched melt first, and it appeared to deform and to concentrate in the dendrite boundaries during cooling. In the near eutectic intermediate Cr and Ni containing alloy, sulfides formed in the solid state. The sulfides formed in all the alloys were Mn and/or Cr rich.
- 社団法人 日本鉄鋼協会の論文
- 2009-03-15
著者
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Sridhar Seetharaman
Department Of Materials Science And Engineering Carnegie Mellon University
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NAKAMA Kazuo
Research and Development Center, High Alloy Steel Group, Sanyo Special Steel Co., Ltd.
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HARUNA Yasushi
Research and Development Center, High Alloy Steel Group, Sanyo Special Steel Co., Ltd.
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NAKANO Jinichiro
Department of Materials Science and Engineering, Carnegie Mellon University
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Nakano Jinichiro
Department Of Materials Science And Engineering Carnegie Mellon University
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Nakama Kazuo
Research And Development Center High Alloy Steel Group Sanyo Special Steel Co. Ltd.
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Haruna Yasushi
Research And Development Center High Alloy Steel Group Sanyo Special Steel Co. Ltd.
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NAKANO Jinichiro
Department of Material Science & Engineering, Carnegie Mellon University
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Sridhar Seetharaman
Department of Materials Science and Engineering, Carnegie Mellon University
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