Yen Hao Frank Su scite author profile

Intra-granular Acicular Ferrite (IAF), as one of the most well-known desirable microstructure of ferrite with a chaotic crystallographic orientation, can not only refine the microstructure and retard the propagation of cleavage crack but also provide excellent combination of strength and toughness in steel. The effect of adding cerium on microstructure and controlling proper cerium-based inclusions in order to improve properties in low-carbon commercial steel (SS400) were investigated. The type of inclusions can be controlled by changing S/O ratio and Ce content. Without Ce modification, MnS is a dominate inclusion. After adding Ce, the stable inclusion phases change from AlCeO3 to Ce2O2S. The optimum amount of cerium, 0.0235 wt.%, lead in proper grain refinement and formation of cerium oxide, oxy-sulfide and sulfide inclusions. Having a high amount of cerium results in increasing the number of inclusions significantly as a result it cannot be effective enough and the inclusions will act like barriers for others. It is found that the inclusions with a size of about 4∼7 μm can serve as heterogeneous nucleation sites for AF formation. Thermodynamic calculations have been applied to predict the inclusion formation in this molten steel as well, which show a good agreement with experimental one.

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Effects of Rare Earth Metals on Steel Microstructures

Pan

et al. 2016

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Rare earth metals are used in semiconductors, solar cells and catalysts. This review focuses on the background of oxide metallurgy technologies, the chemical and physical properties of rare earth (RE) metals, the background of oxide metallurgy, the functions of RE metals in steelmaking, and the influences of RE metals on steel microstructures. Future prospects for RE metal applications in steelmaking are also presented.

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Effects of Mg-Al-O-Mn-S inclusion on the nucleation of acicular ferrite in magnesium-containing low-carbon steel

Lin

Pan

et al. 2018

Materials Characterization

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EBSD analysis of magnesium addition on inclusion formation in SS400 structural steel

Luo

et al. 2013

Materials Characterization

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Optical inclusion transformation with different amount of cerium addition during solidification of SS400 steel

Pan

Augusto

et al. 2016

Opt Quant Electron

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Inclusions properties at 1673 K and room temperature with Ce addition in SS400 steel

Pan

Chen

et al. 2017

Sci Rep

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Inclusion species formed in SS400 steel with Ce-addition was predicted by thermodynamic calculation. The analysis of the inclusion morphology and size distribution was carried out by applying Scanning Electron Microscopy (SEM) and Transmission Electron Microscope (TEM). Nano-Fe3O4 particles were also found in cerium-deoxidized and -desulfurized steel and their shapes were nearly spherical. The complex Ce2O3 inclusions covering a layer of 218 nm composed by several MnS particles with similar diffraction pattern. Most importantly, the complex Ce2O3 characterized by using TEM diffraction is amorphous in the steel, indicating that Ce2O3 formed in the liquid iron and then MnS segregated cling to it.

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Thermodynamic Calculation among Cerium, Oxygen, and Sulfur in Liquid Iron

Pan

Zhang

Chen

et al. 2016

Sci Rep

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Thermodynamic calculation has been applied to predict the inclusion formation in molten SS400 steel. When the Cerium addition in liquid iron is 70 ppm and the initial Oxygen and Sulphur are both 110 ppm, the formation of oxides containing Cerium would experience the transformation from Ce2O3 to CeO2 and also the formation of sulfides containing Cerium would experience the transformation from CeS to Ce2S3 and then to Ce3S4. Below 2000 K the most thermodynamic stable matter is CeO2 and the less thermodynamic stable inclusion is CeS. Only when the amount of [O] is extremely low and the amount of [S] and [Ce] is relatively high, Ce2S3 has the possibility to form.

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CALPHAD-assisted morphology control of manganese sulfide inclusions in free-cutting steels

Lin

Yang

et al. 2019

Journal of Alloys and Compounds

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Yen Hao Frank Su

Effect of Adding Cerium on Microstructure and Morphology of Ce-Based Inclusions Formed in Low-Carbon Steel

Effects of Rare Earth Metals on Steel Microstructures

Effects of Mg-Al-O-Mn-S inclusion on the nucleation of acicular ferrite in magnesium-containing low-carbon steel

EBSD analysis of magnesium addition on inclusion formation in SS400 structural steel

Optical inclusion transformation with different amount of cerium addition during solidification of SS400 steel

Inclusions properties at 1673 K and room temperature with Ce addition in SS400 steel

Thermodynamic Calculation among Cerium, Oxygen, and Sulfur in Liquid Iron

CALPHAD-assisted morphology control of manganese sulfide inclusions in free-cutting steels

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