Litcius/Paper detail

Transformation of cerium-containing inclusions in ultra-low-carbon aluminum-killed steels during solidification and cooling

Qiang Ren, Lifeng Zhang, Yubao Liu, Lingxiao Cui, Wen Yang

2020Journal of Materials Research and Technology30 citationsDOIOpen Access PDF

Abstract

Laboratory experiments were conducted to study the transformation of cerium-containing inclusions during the solidification and cooling process in ultra-low-carbon aluminum-killed steels with 33 ppm, 83 ppm and 140 ppm. Inclusions were analyzed statistically using an automatic scanning electron microscope in water-cooled and furnace-cooled samples, respectively. Besides, sulfur-containing precipitates were detected in furnace-cooled ingots to validate the transformation of inclusions. During the solidification and cooling process, it was found that homogeneous CeAlO3 inclusions transformed into Al2O3–Ce2S3 dual-phase ones in the steel containing 33 ppm, and Ce2O2S inclusions transformed into CeAlO3–Ce2S3 or Al2O3–Ce2S3 dual-phase ones in the steel containing 83 ppm, while inclusions in the steel containing 140 ppm hardly transformed. The thermodynamic analysis was performed and agreed well with experimental results. A prediction model based on the thermodynamics and the mass balance was established to predict the type and the composition of inclusions after transformation in ingots. When the value of T.Ce/T.S ≥ 2.92 in the steel, all sulfur content was combined with the cerium and precipitates of (Mn, Cu)S hardly formed in the solidified steel.

Topics & Concepts

Materials scienceCeriumMetallurgyScanning electron microscopeSulfurPhase (matter)Carbon fibersNon-metallic inclusionsAluminiumComposite materialChemistryOrganic chemistryComposite numberMetallurgical Processes and ThermodynamicsIron and Steelmaking ProcessesMicrostructure and Mechanical Properties of Steels