CeO2和La2O3对炼钢用低碳镁碳砖性能影响研究

炼钢 ›› 2025, Vol. 41 ›› Issue (4): 84-89.

CeO₂和La₂O₃对炼钢用低碳镁碳砖性能影响研究

张鑫^1,2,3，卢堃^1,2,3，朱家兴^1,2,3，刘爽^1,2,3，彭军^1,2,3，安胜利^1,2,3

1.内蒙古科技大学稀土产业学院，内蒙古包头 014000；
2.内蒙古自治区先进陶瓷材料与器件重点实验室（内蒙古科技大学），内蒙古包头 014010；
3.教育部轻稀土资源绿色提取与高效利用重点实验室（内蒙古科技大学），内蒙古包头 014010

出版日期:2025-08-05 发布日期:2025-07-31

Study on the influence of CeO₂ and La₂O₃ on the properties of low carbon magnesia carbon brick for steelmaking

Online:2025-08-05 Published:2025-07-31

摘要/Abstract

摘要： 研究了添加稀土CeO₂、La₂O₃对低碳镁碳砖强度及抗渣侵蚀能力的差异化影响。添加稀土CeO₂后，低碳镁碳砖的显气孔率减小，体积密度、常温耐压强度增大，抗渣侵蚀性能有改善。添加CeO₂后低碳镁碳砖更加致密，体积密度由3.00 g/cm³增加至3.04 g/cm³，显气孔率由3.57%降低到3.16%。随着稀土CeO₂的加入，低碳镁碳砖的强度亦上升，抗压强度由34.7 MPa增加至41.3 MPa。但是添加La₂O₃后低碳镁碳砖自粉化严重，体积密度由3.00 g/cm³降低至2.62 g/cm³，显气孔率由3.57%提高到了8.2%。随着稀土La₂O₃的加入，低碳镁碳砖的强度下降，抗压强度由34.7 MPa降低至9.6 MPa。添加稀土CeO₂、La₂O₃后低碳镁碳砖的抗渣侵蚀能力均增强，1 600 ℃下在精炼渣中浸泡3 h后，未加稀土的低碳镁碳砖熔损厚度为0.83 mm，添加CeO₂后熔损厚度为0.40 mm，添加La₂O₃后熔损厚度为0.18 mm。

关键词: 低碳镁碳砖, 稀土氧化物, 微观组织, 强度, 抗渣侵蚀能力

Abstract: The differentiated effect of adding rare earth CeO₂ and La₂O₃ on the strength and anti-slag erosion capacity was studied. After the addition of rare earth CeO₂, the porosity rate of low carbon magnesia carbon brick was decreased, the volume density and normal temperature compressive strength were increased, and the slag erosion resistance was improved. After the addition of CeO₂, low carbon magnesia carbon bricks were more dense, the volume density increased from 3.00 g/cm³ to 3.04 g/cm³, and the porosity rate decreased from 3.57% to 3.16%. With the addition of rare earth CeO₂, the strength of low carbon magnesia carbon brick also increased, and the compressive strength increased from 34.7 MPa to 41.3 MPa. However, after the addition of La₂O₃, low carbon magnesiacarbon brick self-powdered, the volume density decreased from 3.00 g/cm³ to 2.62 g/cm³, and the porosity rate increased from 3.57% to 8.2%. With the addition of rare earth La₂O₃, the strength of low carbon magnesia carbon brick also decreased, and the compressive strength decreased from 34.7 MPa to 9.6 MPa. The slag erosion resistance of low carbon magnesia carbon bricks was enhanced after adding rare earth CeO₂ and La₂O₃. After 1 600 ℃ for 3 h, the melting loss thickness of low carbon magnesia carbon bricks without the rare earth mixture was 0.83 mm, the melting loss thickness after adding CeO₂ was 0.40 mm, and the melting loss thickness after adding La₂O₃ was 0.18 mm.

Key words: low carbon magnesia carbon brick, rare earth oxide, microstructure, strength, anti-slag erosion ability

张鑫, 卢堃, 朱家兴, 刘爽, 彭军, 安胜利, . CeO₂和La₂O₃对炼钢用低碳镁碳砖性能影响研究[J]. 炼钢, 2025, 41(4): 84-89.

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CeO₂和La₂O₃对炼钢用低碳镁碳砖性能影响研究

Study on the influence of CeO₂ and La₂O₃ on the properties of low carbon magnesia carbon brick for steelmaking

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