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FCC and BCC Solidification Products in a Rapidly Solidified Austenitic Steel

机译：快速凝固奥氏体钢中的FCC和BCC凝固产物

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The microstructures and local composition variations in centrifugally atomized high-sulfur stainless steel powder are investigated. Both fcc and bcc are found to be primary solidification phases in the as-solidified powder of this nominally austenitic steel where the smaller powder particles (approx. < 70 micron diameter) tend to be bcc. Cellular solidification structures, with sulfide precipitates (100 to 200 nm diameter in size) at the cell walls, are observed in both fcc and bcc particles. The bcc structure, however, has many small sulfide precipitates (10 to 20 nm diameter) in the cell interior with few larger sulfide precipitates at the cell walls. The small precipitates, observed only in the bcc structures, form on cooling from a supersaturated solid solution that results from reduced solute partitioning during solidification. partitioning of chromium and nickel is minimal in these cellular structures. A non-cellular bcc structure is also observed with small sulfide precipitates throughout the entire structure. This non-cellular bcc structure results from smooth-front massive solidification. Analysis of the nucleation process for solidification indicates that a transition from fcc nucleation to bcc nucleation occurs with increasing wetting angle in heterogeneous nucleation. Thus bcc should nucleate in the smaller droplets of a liquid dispersion where catalytic surfaces of low potency (large wetting angle) tend to be the only heterogeneous nucleants available. (Author)

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作者
Kelly, T. F.; Vander Sande, J. B.; Cohen, M.;
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年度 1981
页码 p.1-8
总页数 8
原文格式 PDF
正文语种 eng
中图分类工业技术;
关键词
Steel; Austenite; Solidification; Quick reaction; Electron microscopy; Processing; Electronic scanners; Stainless steel; Metastable state; Phase transformations; Synthesis(Chemistry); Chemical analysis; Powders; Chromium; Nickel; Manganese compounds; Sulfides; Preci;

机译：钢;奥氏体;凝固;快速反应;电子显微镜;加工;电子扫描仪;不锈钢;亚稳态;相变;合成（化学）;化学分析;粉末;铬;镍;锰化合物;硫化物; preci;

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3. A New Bcc-Fcc Orientation Relationship Observed between Ferrite and Austenite in Solidification Structures of Steels [J] . T.J. HEADLEY, J.A. BROOKS Metallurgical and Materials Transactions, A. Physical Metallurgy and Materials Science . 2002,第1期

机译：钢凝固组织中铁素体与奥氏体之间新的Bcc-Fcc取向关系
4. Solidification Mechanism of Austenitic Stainless Steel Weld Metals with Primary Ferrite Solidification [C] . Hiroshige Inoue, Toshihiko Koseki International conference on trends in welding research . 2013

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5. Rapid Solidification of Austenitic Stainless Steels by Splat Quenching [D] . Morales, Sydney Mackenzie. 2020

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6. Characterization and Corrosion Resistance of Boron-Containing-Austenitic Stainless Steels Produced by Rapid Solidification Techniques [O] . Guilherme Y. Koga, Lucas B. Otani, Ana M. B. Silva, 2018

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7. Solidification Crack Susceptibility in Weld Metals of Fully Austenitic Stainless Steels (Report IV) : Effect of Decreasing P and S on Solidification Crack Susceptibility of SUS 310S Austenitic Stainless Steel Weld Metals [O] . ARATA Yoshiaki, MATSUDA Fukuhisa, NAKAGAWA Hiroji, 2013

机译：完全奥氏体不锈钢的焊接金属中的凝固裂纹敏感性（报告IV）：降低P和S对SUS 310S奥氏体不锈钢焊接金属的凝固裂纹敏感性的影响
8. FCC and BCC Solidification Products in a Rapidly Solidified Austenitic Steel. [R] . Kelly, T. F., Vander Sande, J. B., Cohen, M. 1981

机译：快速凝固奥氏体钢中的FCC和BCC凝固产物。

FCC and BCC Solidification Products in a Rapidly Solidified Austenitic Steel

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