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Agglomeration behaviors of different types of complex TiN inclusions in high titanium wear resistant steel

Ji Zhou, Chengjun Liu, Yeguang Wang, Zhigang Liang, Zhouli Liu

2024Journal of Materials Research and Technology11 citationsDOIOpen Access PDF

Abstract

Large-sized titanium-containing inclusion clusters seriously affect the continuous casting and performance of high titanium wear-resistant steel. In the current work, thermodynamic calculations were firstly conducted to predict the formation of various complex TiN inclusions, viz, TiOx-TiN, Al2O3-TiN and LaAlO3-TiN. Based on that, laboratory-scale experiments were designed to prepare samples containing a single type of complex TiN inclusions. The agglomeration characterizes of different complex inclusions were compared by combing in-situ observation based on confocal laser scanning microscopy and Newtonian motion equation. Furthermore, the Kralchevsky-Paunov model was used to study the influences of density and size on the agglomeration behavior of complex TiN inclusions. The result shows that the attractive force between TiOx-TiN complex inclusions increases from 1.93×10-18 to 4.34×10-17 N, while it was 3.41×10-17 to 5.12×10-16 N for Al2O3-TiN complex inclusions and 6.42×10-18 to 1.14×10-16 N for LaAlO3-TiN inclusions. Based on the experimental results and theoretical calculation, the agglomeration tendency of Al2O3-TiN is the strongest due to the considered size and compared to the TiOx-TiN inclusions, the stronger agglomeration tendency of LaAlO3-TiN ones can be attributed to their higher density.

Topics & Concepts

TinTitaniumMaterials scienceMetallurgyEconomies of agglomerationWear resistanceTitanium nitrideComposite materialChemical engineeringLayer (electronics)EngineeringNitrideMicrostructure and Mechanical Properties of SteelsWelding Techniques and Residual StressesMetal Alloys Wear and Properties
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