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Improvement of low carbon MgO‐C refractories by MA‐CA <sub>2</sub> additives fabricated from metallurgical waste

Shaopeng Tang, Lvping Fu, Huazhi Gu, Ting Wang, Ao Huang, Jianfang Wu, Renxiang Lv

2021International Journal of Applied Ceramic Technology14 citationsDOI

Abstract

Abstract In the present work, MA‐CA 2 material was fabricated by adding industrial alumina into industrial waste residue, and its effect on the physical properties, oxidation resistance, slag resistance, and thermal shock resistance when it was added to the composition of a low carbon MgO‐C refractory was discussed in detail. Although the introduction of MA‐CA 2 material led to a slight inferior slag corrosion resistance, the volume stability and oxidation resistance of refractories were improved. Moreover, the samples containing MA‐CA 2 addition showed significantly lower thermal expansion coefficients and increased thermal shock resistance performance. However, owing to the dissolution of SiO 2 impurity into the MA‐CA 2 material, an excessive addition of MA‐CA 2 material would increase the liquid phase amount in the sample during the heat treatment and slag attack, resulting in a performance degradation. In this study, the best comprehensive performance of the MgO‐C refractory was obtained with 6 wt% MA‐CA 2 addition.

Topics & Concepts

Materials scienceThermal shockMetallurgyDissolutionCorrosionImpurityThermal stabilityCarbon fibersSlag (welding)MicrostructureDegradation (telecommunications)Oxidizing agentComposite materialChemical engineeringOrganic chemistryChemistryEngineeringTelecommunicationsComputer scienceComposite numberAdvanced ceramic materials synthesisMagnesium Oxide Properties and ApplicationsNuclear materials and radiation effects