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Thermodynamic calculations and experiments on inclusions to be nucleation sites for intragranular ferrite in Si-Mn-Ti deoxidized steel 被引量:5

Thermodynamic calculations and experiments on inclusions to be nucleation sites for intragranular ferrite in Si-Mn-Ti deoxidized steel
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摘要 Microstructures and inclusions in the Si-Mn-Ti deoxidized steels after cooling in the furnace were investigated. The composition and morphology of the inclusions were analyzed using a field emission scanning electron microscope (FE-SEM) with energy dispersive X-ray spectrometry (EDS). The kind and composition of the inclusions calculated from the thermodynamic database were in good agreement with the experimental results. There were two main kinds of inclusions formed in the Si-Mn-Ti deoxidized steels. One kind of inclusion was the manganese titanium oxide (Mn-Ti oxide). Another kind of inclusion was the MnS inclusion with segregation points containing Ti and N. According to the thermodynamic calculation, those segregation points were TiN precipitates. The formation of intragranular ferrite (IGF) microstructures refined the grain size during the austenite-ferrite transformation. The mechanisms of IGF formation were discussed. Mn-Ti oxide inclusions with Mn-depleted zone (MDZ) were effective to be nucleation sites for IGF formation, because the MDZ increased the austenite-ferrite transformation temperature. TiN had the low misfit ratio with IGF, so the TiN precipitated on the MnS surface also promoted the formation of IGF because of decreasing interfacial energies. Microstructures and inclusions in the Si-Mn-Ti deoxidized steels after cooling in the furnace were investigated. The composition and morphology of the inclusions were analyzed using a field emission scanning electron microscope (FE-SEM) with energy dispersive X-ray spectrometry (EDS). The kind and composition of the inclusions calculated from the thermodynamic database were in good agreement with the experimental results. There were two main kinds of inclusions formed in the Si-Mn-Ti deoxidized steels. One kind of inclusion was the manganese titanium oxide (Mn-Ti oxide). Another kind of inclusion was the MnS inclusion with segregation points containing Ti and N. According to the thermodynamic calculation, those segregation points were TiN precipitates. The formation of intragranular ferrite (IGF) microstructures refined the grain size during the austenite-ferrite transformation. The mechanisms of IGF formation were discussed. Mn-Ti oxide inclusions with Mn-depleted zone (MDZ) were effective to be nucleation sites for IGF formation, because the MDZ increased the austenite-ferrite transformation temperature. TiN had the low misfit ratio with IGF, so the TiN precipitated on the MnS surface also promoted the formation of IGF because of decreasing interfacial energies.
作者 Xiaojun Zhuo Xinhua Wang Wanjun Wang Lee Hae-Geon
机构地区 Metallurgical and Ecological Engineering School Graduate Institute of Ferrous Technology
出处 《Journal of University of Science and Technology Beijing》 CSCD 2007年第1期14-21,共8页 北京科技大学学报(英文版)
关键词 Si-Mn-Ti deoxidized steel intragranular ferrite Mn-depleted zone TtN precipitation thermodynamic calculation Si-Mn-Ti deoxidized steel intragranular ferrite Mn-depleted zone TtN precipitation thermodynamic calculation
分类号 TG142.23 [金属学及工艺—金属材料]
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参考文献13

  • 1I. Madariaga Ph.D.,J. L. Romero,I. Gutiérrez.Upper acicular ferrite formation in a medium-carbon microalloyed steel by isothermal transformation: Nucleation enhancement by CuS[J].Metallurgical and Materials Transactions A.1998(13)
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同被引文献40

  • 1Xiaojun Zhuo,Xinhua Wang,Wanjun Wang,Hae-Geon Lee.Nature of large (Ti, Nb)(C, N) particles precipitated during the solidification of Ti, Nb HSLA steel[J].Journal of University of Science and Technology Beijing,2007,14(2):112-117. 被引量:7
  • 2Ricks R A, Howell P R, Barritte G S. The Nature of Acicular Ferrite in HSLA Steel Weld Metals [J]. Journal of Materials Science, 1982, 17(3): 732.
  • 3Madariaga I, Romero J L, Gutie'rrez I. Upper Acicular Ferrite Formation in a Medium-Carbon Microalloyed Steel by Isother real Transformation: Nucleation Enhancement by CuS [J]. Metall Mater Trans, 1998, 29A(3) : 1003.
  • 4Gregg J M, Bhadeshia H K D H. Solid State Nucleation of Acicular Ferrite on Minerals Added to Molten Steel[J]. Acta Mater, 1997, 45(2): 739.
  • 5Ueshima Y, Yuyama H, Mizoguchi S, et al. Effect of Oxide Inclusions on MnS Precipitation in Low Carbon Steel [J]. Tetsu-to Hagane, 1989, 75(3), 501.
  • 6Goto H, Miyazawa K, Honma H. Effect of the Primary Oxide on the Behavior of the Oxide Precipilating During Solidification of Steel [J]. ISIJ Int, 1996, 36(5): 537.
  • 7Sawai T, Wakoh M, Mizoguchi S. Effect of Zr-Oxide Particles on the MnS Precipitation in Low S Steels [J]. Tetsu to Hagane, 1996, 82(7): 587.
  • 8Wakoh M, Sawai T, Mizoguchi S. Effect of Ti-Zr Oxide Patticles on MnS Precipitation in Low S Steels[J]. Tetsu to- Hagane, 1996, 82(7): 593.
  • 9Ishikawa F, Takahashi T. The Formation of Intragrarlular Fer rite Plates in Medium Carbon Steels for Hot Forging and Its Effect on the Toughness[J]. ISIJ Int, 1995, 35(9): 1128.
  • 10lshikawa F, Takahashi T, Ochi T. Intragranular Ferme Nucleation in Medium Carbon Vanadium Steels [J]. Metall Mater Trans, 1994, 25A(5): 929.

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Journal of University of Science and Technology Beijing
2007年 第1期

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