Carbide formation and accumulation in SiMn furnaces

EngRN: Production Engineering (Topic) Pub Date : 2021-09-12 DOI:10.2139/ssrn.3926154

Vincent Canaguier, Jonas E Gjøvik, E. Ringdalen

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引用次数: 1

Abstract

Recent excavations of Norwegian medium size SiMn furnaces have revealed spectacular amounts of carbide-rich materials accumulating on the sidewalls. In an excavated furnace from Eramet Kvinesdal, producing a 19%Si silicomanganese alloy prior shutdown, the sidewall materials contained silicon carbide in addition to SiMn alloy, slag and carbon. This contrasts with the large amounts of titanium carbides found in a furnace from Ferroglobe (Glencore then) which was producing 16%Si silicomanganese. The significant volume occupied by the carbides is likely to affect the flow of materials as well as furnace operation. It is therefore meaningful to understand how and when those carbides can form, especially concerning titanium carbide given the low content of titanium (about 0.3%) in the raw materials. The present study investigates the conditions under which TiC and SiC can appear in the furnace. Slag, alloy, and gas compositions were chosen to mimic industrial charges and were reacted between 1450 and 1650 °C. The reacted samples were further analysed by electron probe microanalysis with wavelength-dispersive X-ray spectroscopy (EPMA/WDS). Thermodynamic calculations were conducted using FactSage 8.0 and used for further reflection. The results indicate that TiC was formed by both precipitation and chemical reaction.

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SiMn炉中碳化物的形成和积累

最近对挪威中型SiMn炉的挖掘显示，大量的富含碳化物的材料积聚在侧壁上。在Eramet Kvinesdal的一座挖掘炉中，在关闭前生产了19%硅锰合金，侧壁材料除了含有硅锰合金外，还含有碳化硅、炉渣和碳。这与铁地球公司(当时的嘉能可)的一个熔炉中发现的大量碳化钛形成对比，该熔炉生产的硅锰含量为16%。碳化物所占据的大量体积可能会影响物料的流动以及炉子的运行。因此，了解这些碳化物是如何以及何时形成的是有意义的，特别是考虑到原料中钛含量低(约0.3%)的碳化钛。本研究探讨了TiC和SiC在炉内析出的条件。选择炉渣、合金和气体组成来模拟工业电荷，并在1450至1650°C之间进行反应。用波长色散x射线能谱(EPMA/WDS)对反应样品进行了电子探针微量分析。热力学计算使用FactSage 8.0进行，并用于进一步反射。结果表明，TiC是由沉淀和化学反应共同形成的。

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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EngRN: Production Engineering (Topic)

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