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Influence of Al and N Content and Cooling Rate on the Characteristics of Complex MnS Inclusions in AHSS

Muhammad Nabeel, Michelia Alba, Neslihan Dogan

2020Crystals15 citationsDOIOpen Access PDF

Abstract

This study focused on the characteristics of complex MnS inclusions in advanced high strength steels. The effect of metal chemistry (Al and N) and the cooling rate of steel were evaluated by analyzing the inclusions present in five laboratory produced steels. The observed complex MnS inclusions contained Al2O3-MnS, AlN-MnS, and AlON-MnS. An increase in Al content from 0.5% to 6% increased the number of complex MnS inclusions by ~4 times. In comparison, a decrease of ~80% was observed due to the increased N content of steel from <10 ppm to ~50 ppm. MnS precipitation ratio was used to determine the potency of different inclusions forming complex MnS inclusions due to heterogeneous nucleation. It was found that the MnS precipitation ratio of the observed inclusions was related to their misfit with MnS, and it decreased in the order of AlN > AlON > Al2O3. Moreover, it was determined that AlN particles could be easily engulfed at the solidification front relative to Al2O3, which resulted in a higher MnS precipitation ratio for Al2O3 under slow cooling conditions.

Topics & Concepts

PrecipitationNucleationMaterials scienceMetallurgyNon-metallic inclusionsMetalChemistryMeteorologyPhysicsOrganic chemistryMetallurgical Processes and ThermodynamicsMicrostructure and Mechanical Properties of SteelsMetal Alloys Wear and Properties
Influence of Al and N Content and Cooling Rate on the Characteristics of Complex MnS Inclusions in AHSS | Litcius