共查询到19条相似文献,搜索用时 109 毫秒
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为了探索某钢厂所用铁矿粉的最佳配矿方案,采用微型烧结试验装置对铁矿粉进行烧结基础特性及其影响因素研究,并对铁矿粉以不同配比搭配寻找最佳配矿方案。结果表明:B矿粉具有较好的同化能力和较高的液相流动性,而A矿粉具有较好的铁酸钙生成特性和较高的粘结相强度;铁矿粉中MgO、Fe_2O_3、CaO、SiO_2和结晶水质量分数等是影响铁矿粉烧结基础特性的主要因素;在考虑铁矿粉成本的条件下得出这两种铁矿粉的最佳配矿方案,即A∶B为2∶8时,混合矿粉的综合性能最好。在最佳配矿条件下混合矿粉的同化温度最低、液相流动性指数最高、铁酸钙生成能力较好、粘结相强度较高、价格最低,相应数值分别为1 190℃、3、22.49%、0.859 kN/P、537.91元/t。 相似文献
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为了给烧结生产优化配矿技术提供基础依据,更好地指导烧结生产,对青钢烧结常用的6种铁矿粉的同化性能、液相生成特性以及烧损和结晶水分解特性等高温基础性能和微观结构进行了研究,且运用评价模型对各铁矿粉进行了评分。结果表明,各铁矿粉的同化温度均未超过1 250℃,可以满足低温烧结的条件,同化性能最好的为铁矿粉E;1 240℃时6种铁矿粉的流动性指数较适宜低温烧结,1 280℃时流动性指数和液相生成量均较高;6种铁矿粉中铁矿粉E的烧损值和结晶水值均处于较高水平,其中铁矿粉F的结晶水含量是6种矿粉中最高的;6种铁矿粉的微观形貌差异较大,铁矿粉C和D表面较光滑,吸水能力差,从制粒的角度上来看,不利于改善制粒效果,而铁矿粉A和B的表面较粗糙,适宜制粒;基于评分的高低将铁矿粉划分为4个等级。 相似文献
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针对国内外各种铁矿石性能差异较大的现状,为了更合理有效地评价和利用各种铁矿资源,将单种铁矿分为块矿、球团矿、富矿粉和精矿粉4种类型,并根据提供的铁矿数据设计了简易型和科学型2种评价模型,建立单种铁矿性能综合评价体系。结合某钢厂的烧结、炼铁生产实际参数,采用Visual Studio开发模型软件,对各种铁矿石做出快速、定量的综合评价,直接计算出最佳的采购参考价格。经企业应用表明,模型计算结果准确度高,为降低炼铁成本,提高生产效率提供了理论和技术依据。 相似文献
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Eiki KASAI 《Baosteel Technical Research》2010,(Z1):1
The properties of iron ores used in ironmaking process have been drastically changed in the past couple of decades.Especially,the change has become significant in the last few years because of the considerable increase in the world steel production.The property change of the iron ore is mainly caused by the depletion of the hard and high-grade lump hematite ores.It has led to the increasing use of ores containing a larger amount of goethite/limonite,i.e.,hydro-oxides of iron.Typically,the proportion of p... 相似文献
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采用微型烧结试验快速测定铁矿石的烧结基础特性 总被引:4,自引:0,他引:4
济钢采用微型烧结试验设备对各种铁矿石的烧结基础特性进行研究,为烧结厂快速优化配矿和生产优质烧结矿提供了可靠的依据。 相似文献
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CAO Yong-guo WU Sheng-li HAN Hong-liang WANG Hong-wei XUE Fang LIU Xiao-qin 《钢铁研究学报(英文版)》2011,18(9):1-5
Pilbara blending iron ore powder (PB powder) is blending ores with good and poor quality iron ores, so how to use PB power effectively is a problem. The self-characteristics of PB powder and its single-components were studied respectively, such as the macroscopic properties, microscopic properties, and high-temperature properties; the behavior and effect in the sintering were mastered. Then based on the new ore-proportioning idea of iron ores sintering characteristics complementary, the principles on the effective use of PB powder were discussed, and was further validated through the sintering pot test and industrial production. The results show that: PB powder is composed of three kinds of iron ore, and the sintering characteristics of different iron ores are obviously discrepant. With the ore-proportioning optimization based on the iron ores sintering characteristics complementary, the proportion of PB iron ore powder can be increased to more than 45%. 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