Batch Sintering of FeO·OH and Fe2O3 Blends: Chemical and Metallurgical Characterization

Metals Pub Date : 2024-05-20 DOI:10.3390/met14050598
Igor J. U. V. Pereira, Henrique C. S. Coelho, Cláudio G. Santos, E. Brocchi, Rodrigo F. M. Souza, Víctor A. A. Oliveira
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Abstract

A sample of goethite iron ore sinter feed (G_SF) was employed as a raw material in a sintering bed. This sample partially replaced hematite sinter feed (H_SF), which is currently used as raw material in a sintering plant in the state of Minas Gerais, Brazil. This substitution did not adversely affect the chemical and metallurgical proprieties of the sinter mix product, provided that the utilization of G_SF was kept below 30% in weight. Despite the higher proportion of fines in G_SF, the presence of argillaceous minerals in the sample led to an improvement in the granulation index (GI) of the sinter mix product. The GI value increased from 68.4 to 82.7% for the experiments conducted without the presence of goethite ore and with 40% of goethite ore in the sintering mix, respectively. Consequently, the qualities of both the process and the produced sinter product were not compromised. The raw materials and the various sinters produced were characterized through X-ray fluorescence (XRF) and X-ray diffraction (XRD), as well as thermal gravimetric analysis (TGA). The XRD results were used to perform a quantitative assessment of the mineral phase using the Rietveld method (RM). This technique allowed for the determination of goethite content in the studied sample, which was 35.5%. Finally, the incorporation of G_SF in the sintering bed led to a 20% reduction in the cost of raw materials.
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批量烧结 FeO-OH 和 Fe2O3 混合物:化学和冶金表征
鹅铁矿烧结给料(G_SF)样品被用作烧结床的原料。该样品部分取代了巴西米纳斯吉拉斯州一家烧结厂目前用作原料的赤铁矿烧结给料(H_SF)。只要 G_SF 的利用率保持在 30% 以下,这种替代不会对烧结混合产品的化学和冶金特性产生不利影响。尽管 G_SF 中细粒的比例较高,但由于样品中含有假火山岩矿物,烧结混合料产品的粒化指数(GI)得到了改善。在烧结混合料中不含鹅膏石矿石和含 40% 鹅膏石矿石的实验中,GI 值分别从 68.4% 提高到 82.7%。因此,烧结工艺和烧结产品的质量都没有受到影响。通过 X 射线荧光 (XRF) 和 X 射线衍射 (XRD) 以及热重分析 (TGA) 对原材料和生产的各种烧结矿进行了表征。X 射线衍射结果用于使用里特维尔德法(RM)对矿物相进行定量评估。通过这项技术,可以确定所研究样品中的甲沸石含量为 35.5%。最后,在烧结床中加入 G_SF 使原材料成本降低了 20%。
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