电热法处理温石棉废渣制铁合金及提取气相镁

IF 0.8 Q4 METALLURGY & METALLURGICAL ENGINEERING Kompleksnoe Ispolzovanie Mineralnogo Syra Pub Date : 2023-04-30 DOI:10.31643/2023/6445.42
Akylbekov Ye, Ye, Yergaliuly, Shevko Viktor Mikhailovich, Aitkulov Dosmurat, Kyzylbievich, Karatayeva Gulnara
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引用次数: 1

摘要

本文介绍了Kostanay Minerals JSC对温石棉生产废料处理的实验研究结果。提出了一种从温石棉废料中提取镁和硅质铁合金的电热工艺。测定了焦炭用量和钢屑用量对合金工艺参数的影响。介绍了温石棉废料样品的衍生分析和扫描电镜分析结果。研究包括使用二阶可旋转设计(Box-Hunter计划)的计划实验,技术参数的图形优化,以及使用单电极电弧炉在石墨坩埚中电熔化电荷。得到了充分的回归方程,说明了在温石棉废料中加入焦炭和钢屑的量对合金中硅的提取程度和合金中硅的浓度的影响。通过电熔得到硅含量为24.4 ~ 29.2%的FS25级硅铁和硅含量为41.6 ~ 45%的FS45级硅铁。结果表明,在焦炭含量为33.6-38%、钢屑含量为16-20.8%的情况下,合金中硅的析出度为75 ~ 85.4%的FS45级硅铁是形成的。FS25级硅铁是在30-38%的焦炭和29.4-40%的钢屑存在下形成的;硅的萃取度为68.6-73.8%。
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Electrothermal processing of chrysotile-asbestos wastes with production of ferroalloy and extraction of magnesium into the gas phase
The article presents the results of an experimental study on the processing of wastes from chrysotile-asbestos production at Kostanay Minerals JSC. An electrothermal technology for the extraction of magnesium and siliceous ferroalloy from the chrysotile-asbestos wastes is proposed. The influence of the amount of coke and steel shavings on the technological parameters of the obtained alloys is determined. The results of derivatographic and SEM analyses of the chrysotile-asbestos waste samples are presented. The studies included planning experiments using the second-order rotatable designs (Box-Hunter plans), graphical optimization of technological parameters, and electric melting of a charge in a graphite crucible using a single-electrode arc furnace. Adequate regression equations were obtained explaining the effect of the amount of coke and steel shavings added to the chrysotile-asbestos waste on the extraction degree of silicon into the alloy and the silicon concentration in the alloy. By the electric melting of the charge, high-quality FS25 grade ferrosilicon with a silicon content of 24.4-29.2% and FS45 grade ferrosilicon with a silicon content of 41.6-45% were obtained. It was established that FS45 grade ferrosilicon with the extraction degree of silicon into the alloy from 75 to 85.4% is formed in the presence of 33.6-38% of coke and 16-20.8% of steel shavings. FS25 grade ferrosilicon is formed in the presence of 30-38% of coke and 29.4-40% of steel shavings; the extraction degree of silicon is 68.6-73.8%.
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