关键词: 炼镍转炉, 溅渣护炉, 溅渣层, 结合机理

Abstract: The chemical composition, melting temperature, viscosity, microstructure of splashed slag layer, and its formation mechanism were investigated in used bricks during nickel blowing converter slag splashing process. The results show that at the very beginning of splashing the transition layer formed with main phase of iron oxides on the surface of brick. By further bonding of the slag and brick, the sticking layer formed and phases were hortonolite and magnetite. The content of MgO in the sticking layer was increased at 11.01%, and the melting temperature rose up to 1424℃. During the next blowing circle, the iron oxides in the transition layer diffused and reacted with the magnesia-chrome lining, resulting in the layer of Fe-spinal and Mg-Fe solution. Meanwhile content of Fe2O3 in sticking layer was obviously increased from 1.33% to 18.43% and melting temperature increased to 1598℃. The wearing rate of bricks per heat was decreased by nearly half and the lining life increased greatly.

Key words: nickel converter, slag splashing, splashing layer, bonding mechanism