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Effect of Al content on non-metallic inclusions in Fe–23Mn– <i>x</i> Al–0.7C lightweight steels

Weisheng Wang, Hangyu Zhu, Yun Han, Jianli Li, Zhengliang Xue

2021Ironmaking & Steelmaking Processes Products and Applications50 citationsDOI

Abstract

The composition, morphology, number, area, size and average distance of inclusions in Fe–23Mn–xAl–0.7C steels were evaluated through an inclusion automatic analysis system (INCA Feature). According to their composition and morphology, six types of inclusions are classified in the present steels: MnS(Se), AlN, Al2O3, AlN–MnS(Se), Al2O3–MnS(Se), and other inclusions (i.e. Al2O3–AlN and MgO–Al2O3). Thermodynamic calculation results show that AlN inclusions are formed in molten steel with Al contents of 3.28 and 6.76 wt-%. Irregularly shaped MnS(Se) inclusions precipitate during the solidification processe. AlN and Al2O3 generally serve as sites for the heterogeneous nucleation of MnS(Se). Sometimes, AlN particles can precipitate on the surfaces of Al2O3 and MnS(Se) inclusions in the solidification process. As the Al content increases to 6.76 wt-%, a large number of agglomerated AlN and AlN–MnS(Se) inclusions are observed. Agglomerated AlN inclusions normally form in the smelting process due to the combined effects of the cavity bridge force and viscous resistance.

Topics & Concepts

Materials scienceNucleationNon-metallic inclusionsMetallurgyMorphology (biology)Inclusion (mineral)MetalMineralogyThermodynamicsChemistryGeologyPaleontologyPhysicsMicrostructure and Mechanical Properties of SteelsMetallurgical Processes and ThermodynamicsMagnetic Properties and Applications