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富矿粉烧结中配加蛇纹石与白云石的对比研究 总被引:3,自引:0,他引:3
采用微型烧结法 ,在实验室条件下研究了富矿粉烧结时配加蛇纹石与白云石对烧结矿矿物结构和物理性能的不同影响 ,分析了它们在烧结矿中的作用和赋存状态 ,并通过烧结杯试验验证了机理研究的结果。 相似文献
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添加白云石和蛇纹石都可以调节Mgo的含量,不同的配比对生产的实际效果的影响也不同,以我厂目前的原料情况,经过两个月的实践生产总结,Mgo的含量在2.85%,蛇纹石的配比为0.7%左右时,烧结矿的转鼓强度和产量指标相对最佳。 相似文献
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白云石和蛇纹石对烧结矿质量及显微结构的影响 总被引:1,自引:0,他引:1
白云石和蛇纹石对烧结矿质量及显微结构影响的研究结果表明:配加白云石提高烧结矿的MgO含量,烧结矿转鼓强度降低,而配加蛇纹石提高烧结矿的MgO含量时,转鼓强度提高.配加白云石后,烧结矿矿物组成主要为铁酸钙与骸晶状赤铁矿,骸晶状赤铁矿周围有大量以玻璃质物相存在的硅酸盐矿物,且有大量微细裂纹;烧结矿孔隙率大,气孔为大孔薄壁结构,所以烧结矿强度低.配加蛇纹石后,烧结矿矿物组成主要为磁铁矿和铁酸钙,钙铁橄榄石矿物增多变大,气孔为中孔厚壁结构,所以烧结矿的质量得以改善. 相似文献
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In order to obtain good sintering performance, it is important to understand sintering properties of iron ores. Sintering properties including chemical composition, granulation and high-temperature behaviors of ores from China, Brazil and Australia. Furthermore, several indices were defined to evaluate sintering properties of iron ores. The results show that: for chemical composition, Brazilian ores present high TFe, low SiO2, and low Al2O3 content. For granulation, particle diameter ratio of Brazilian ores are high; particle intermediate fraction of Chinese concentrates are low; and average particle size and clay type index of Australian ores are high. For high-temperature properties, ores from China, Brazil and Australia present different characteristics. Ores from different origins should be mixed together to obtain good high-temperature properties. According to the analysis of each ore′s sintering properties, an ore blending scheme (Chinese concentrates 20%+Brazilian ores 40%+Australian ores 40%) was suggested. Moreover, sinter pot test using blending mix was performed, and the results indicated that the ore blending scheme led to good sintering performance and sinter quality. 相似文献
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根据鞍钢原料条件采用最优试验设计方法,在实验室条件下进行了烧结配加含中等程度结晶水的铁矿粉烧结实验,研究了该粉矿配比对烧结主要技术经济指标的影响.实验结果表明,含中等程度结晶水的进口铁矿粉配比为10%~30%时,通过调整配碳量,可以得到满足高炉要求的烧结矿.经过优化,该进口粉矿的最佳配比为15%,燃料配比为5.4%~5.5%. 相似文献
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The whole melting curve of iron ore during sintering process was obtained, and the melting characteristics of iron ore were defined and explained. The whole melting process of mixture, mixed by iron ore and CaO reagent at basicity of 20 and 40, respectively, was observed using a SiC heating furnace with camcorder unit, and the melting curves of mixture that were relative height vs temperature curves were obtained. Besides, the melting characteristics of iron ore during sintering were introduced through defining some points in the melting curves, such as liquid forming temperature, inflexion temperature and flowing temperature, and the meaning of different shapes of the melting curves was clarified. 相似文献
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以近北庄为主的磁铁精矿的球团烧结进行了较全面的实验室探索,结果表明,球团烧强工艺可以用普通粒度结燃料和全部磁铁精矿生产出碱度不同的优质烧结矿。 相似文献
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为了减少尾矿排放容量,延长尾矿库使用寿命,开展了利用尾矿生产烧结砖试验.梅山铁矿细粒尾矿具有黏而细的特性,选用压滤工艺进行脱水,水分达到20%左右.通过实验室试验、半工业试验、工业试验,探索了烧结砖烧成温度和制砖工艺,研制出合格多孔砖,抗压强度达到建筑烧结砖MUl0的标准,完成了冻融试验、泛霜试验、抗石灰爆裂试验,吸水率达到标准.放射性检测表明,其产销与使用范围不受限制.提出了一期产品规模年产1.2亿块标砖,尽快利用尾矿资源建设烧结砖生产线的设想,实现产业化后,可率先达到无尾矿山的奋斗目标. 相似文献
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D. Fernández-González I. Ruiz-Bustinza J. Mochón C. González-Gasca L. F. Verdeja 《Mineral Processing and Extractive Metallurgy Review》2017,38(4):215-227
Sintering is a thermal agglomeration process that is applied to a mixture of iron ore fines, recycled ironmaking products, fluxes, slag-forming agents, and solid fuel (coke). The purpose of the sintering process is manufacturing a product with the suitable characteristics (thermal, mechanical, physical and chemical) to be fed to the blast furnace. The process has been widely studied and researched in the iron and steelmaking industry to know the best parameters that allow one to obtain the best sinter quality. The present article reviews the sintering process that the mixture follows, once granulated, when it is loaded onto the sinter strand. There, the sinter mixture is partially melted at a temperature between 1300-1480°C and undergoes a series of reactions that forms the sinter cake to be loaded into the blast furnace to produce pig iron. 相似文献
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低品质矿烧结工艺开发与应用 总被引:1,自引:0,他引:1
介绍了天铁集团严格按照市场预算控制的要求,不断谋求低成本运行模式,充分利用价格低廉的铁矿资源,开发低品质矿烧结新技术的情况。通过采取优化配矿结构、加强原料中和混匀、同步调整生产工艺、喷洒CaCl2溶液降低烧结矿低温还原粉化率等举措,使烧结生产对原料的适应性显著增强,为综合利用铁矿石资源提供了借鉴。 相似文献