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Role of Interfacial Properties in the Evolution of Non-metallic Inclusions in Liquid Steel

Lichun Zheng, Annelies Malfliet, Baiqiang Yan, Zhouhua Jiang, Bart Blanpain, Muxing Guo

2022ISIJ International20 citationsDOIOpen Access PDF

Abstract

The evolution of non-metallic inclusions in liquid steel involves a series of processes, including nucleation, growth by diffusion and Ostwald ripening, growth by collisions, floating up and removal of relatively large inclusions, as well as pushing and engulfment of remaining inclusions during solidification. All the evolution processes occur uniquely at the interface between inclusions and liquid steel. Therefore, interfacial properties between inclusions and liquid steel, such as interfacial energy and contact angle, play a crucial role in the evolution of inclusions, thus determining the inclusion characteristics. To effectively control the inclusion characteristics, the role of interfacial properties in the evolution processes of non-metallic inclusions is systematically reviewed in this work, based on theoretical analysis and published experimental results. In the early and middle stages of deoxidation, inclusions should have as high interfacial energy or contact angle as possible to enhance inclusion removal. In the later stage, however, the interfacial energy should be decreased as much as possible to weaken the clustering and pushing of inclusions, favoring the formation of small-sized and uniformly-distributed inclusions. To optimize the characteristics of Al2O3 inclusions, which are the most common in steel, several control strategies are proposed.

Topics & Concepts

Non-metallic inclusionsOstwald ripeningNucleationMaterials scienceInclusion (mineral)MetalSurface energyDiffusionWork (physics)MetallurgyContact angleSteelmakingComposite materialNanotechnologyThermodynamicsMineralogyChemistryPhysicsMetallurgical Processes and ThermodynamicsMicrostructure and Mechanical Properties of SteelsCorrosion Behavior and Inhibition
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