CORROSION MECHANISM OF MgO-C LADLE REFRACTORY IN CONTACT WITH MgO-CaO-Al_2O_3-SiO_2 SLAG

机译：与MgO-CaO-Al_2O_3-SiO_2渣接触的MgO-C钢包耐火材料的腐蚀机理

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The corrosion resistance and corroded microstructure of MgO-C refractory in molten slag are investigated by immersion test in muffle furnace at 1600 °C . The microstructure and chemical compositions of the specimens after erosion experiment are characterized by scanning electron microscope (SEM) and energy dispersive X-ray (EDX). The results confirm that the oxidation of graphite is the most important degradation mode of MgO-C refractory. The structure of the refractory material is damaged due to the decrease of graphite, as a result, the periclase substrate reacts with the molten slag directly. The corrosion process is controlled by the dissolution of the refractory materials into slag, low melting point oxides are therefore generated which lead to the damage of MgO-C refractory finally.

机译：通过在马弗炉中于1600°C下进行浸没试验，研究了熔渣中MgO-C耐火材料的耐蚀性和腐蚀组织。腐蚀实验后样品的微观结构和化学成分通过扫描电子显微镜（SEM）和能量色散X射线（EDX）进行表征。结果证实，石墨的氧化是MgO-C耐火材料最重要的降解方式。耐火材料的结构由于石墨的减少而被破坏，结果，钙镁石基质直接与熔融炉渣反应。腐蚀过程是通过将耐火材料溶解到炉渣中来控制的，因此会生成低熔点氧化物，最终导致MgO-C耐火材料的损坏。

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《TMS annual meeting exhibition;International symposium on high-temperature metallurgical processing》|2015年|193-200|共8页
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Changyuan Lu; Xionggang Lu; Xingli Zou; Hongwei Cheng; Guangshi Li; Yuyang Bian; Xueliang Xie; Kai Zheng;
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MgO-C refractory; static test; corrosion mechanism; slag resistance;

机译：MgO-C耐火材料;静态测试腐蚀机理耐渣性;

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1. Corrosion mechanism and kinetic behaviour of MgO-C refractory material in contact with CaO-Al_2O_3-SiO_2-MgO slag [J] . Sune Jansson, Voicu Brabie, Par Jonsson Scandinavian Journal of Metallurgy . 2005,第5期

机译：MgO-C耐火材料与CaO-Al_2O_3-SiO_2-MgO炉渣接触的腐蚀机理和动力学行为
2. Prediction of the Slag Corrosion of MgO-C Ladle Refractories by the Use of Artificial Neural Networks [J] . S. Akkurt Key Engineering Materials . 2004,第Pt3期

机译：利用人工神经网络预测MgO-C钢包耐火材料的炉渣腐蚀
3. Analysis of the Wear mechanism of MgO-C Slag Line Bricks for Steel Ladles and Formulation of friendly Slag for enhancing Steel Ladle Life at Rourkela Steel Plant [J] . R.B. Gupta IIM Metal News . 2018,第3期

机译：钢材钢材砖砖磨损机理分析及友好炉渣配方，加强罗克拉钢铁厂
4. CORROSION MECHANISM OF MgO-C LADLE REFRACTORY IN CONTACT WITH MgO-CaO-Al_2O_3-SiO_2 SLAG [C] . Changyuan Lu, Xionggang Lu, Xingli Zou, Minerals, Metals and Materials Society., Meeting . 2016

机译：与MgO-CaO-Al_2O_3-SiO_2炉渣接触的MgO-C钢包耐火的腐蚀机制
5. Investigation of the corrosion of MgO-graphite ladle refractories via a laboratory slag test. [D] . Akkurt, Sedat. 1998

机译：通过实验室炉渣测试研究MgO-石墨钢包耐火材料的腐蚀。
6. The Potential of Ladle Slag and Electric Arc Furnace Slag use in Synthesizing Alkali Activated Materials; the Influence of Curing on Mechanical Properties [O] . Mark Češnovar, Katja Traven, Barbara Horvat, 2019

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7. The influence of carbon content on the corrosion of MGO-C refractory material caused by acid and alkaline ladle slag [O] . Adolf Zdeněk, Suchánek Petr, Husar Ivo 2008

机译：碳含量对酸碱钢包渣对MGO-C耐火材料腐蚀的影响

CORROSION MECHANISM OF MgO-C LADLE REFRACTORY IN CONTACT WITH MgO-CaO-Al_2O_3-SiO_2 SLAG

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