Effect of B2O3 on viscosity of high-magnesia blast furnace slag

Izvestiya. Ferrous Metallurgy Pub Date : 2023-03-01 DOI:10.17073/0368-0797-2023-1-89-96

A. Vusikhis, L. I. Leont’ev, R. Gulyaeva, S. Sergeeva, S. Tyushnyakov

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Abstract

Metallurgical companies in the Urals account for 50 – 60 % of local raw materials. Its deficit is compensated by the use of materials imported from Central Russia, the Kola Peninsula and Kazakhstan. Replacing them with the local raw materials would increase the competitiveness of metal produced in the Urals, so the question of assessing the possibility of replacing imported raw materials with local ones is very relevant. Such raw materials could be siderite ores from the Bakal deposit. They are not in demand by metallurgists because of their low iron content and high magnesium content. With growth of siderites in a charge the magnesium oxide content in slag increases that influences its viscosity and makes it difficult or impossible to smelt using more than 20 % of siderites. The use of boron oxide has been suggested to liquefy the slag. The synthetic slag containing 26.8 % CaO, 38.1 % SiO2 , 11.8 % Al2O3 , 23.6 % MgO, simulating composition of slag from MMK blast-furnace smelting with the addition of 30 % of burnt siderites is short and unstable. The temperature corresponding to the slag viscosity at the blast furnace outlet (0.5 Pa·s) is 1390 °C and the temperature corresponding to the melting point (viscosity 2.5 Pa·s) is 1367 °C. If boric anhydride is added to such a slag, it becomes long and stable. In the melts, when the proportion of B2O3 is increased from 0 to 12 %, the temperature at which the slag viscosity is 0.5 Pa·s and 2.5 Pa·s decreases to 1260 °C, and 1100 °C, respectively. This makes it possible to significantly increase the siderite content in blast furnace charge.

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B2O3对高镁高炉渣粘度的影响

乌拉尔的冶金公司占当地原材料的50 - 60%。它的赤字由使用从俄罗斯中部、科拉半岛和哈萨克斯坦进口的材料来弥补。用当地的原材料取代它们将增加乌拉尔生产的金属的竞争力，因此评估用当地原材料取代进口原材料的可能性的问题是非常相关的。这些原料可能是来自Bakal矿床的菱铁矿。由于它们的铁含量低，镁含量高，因此冶金学家不需要它们。随着炉料中菱铁矿的增加，炉渣中的氧化镁含量增加，影响其粘度，使使用超过20%的菱铁矿难以或不可能冶炼。建议使用氧化硼液化炉渣。该合成渣中CaO含量为26.8%，SiO2含量为38.1%，Al2O3含量为11.8%，MgO含量为23.6%，模拟了添加30%焦化黄铁矿的MMK高炉冶炼渣的组成，且短且不稳定。炉渣在高炉出口粘度(0.5 Pa·s)对应温度为1390℃，熔点(粘度2.5 Pa·s)对应温度为1367℃。如果在这种渣中加入硼酸酐，它就会变得长而稳定。在熔体中，当B2O3的含量从0增加到12%时，炉渣粘度为0.5 Pa·s和2.5 Pa·s时的温度分别降低到1260℃和1100℃。这使得显著提高高炉炉料中菱铁矿的含量成为可能。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Izvestiya. Ferrous Metallurgy

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