Study of refractory raw materials of the Republic of Kazakhstan

IF 0.8 Q4 METALLURGY & METALLURGICAL ENGINEERING
E. A. Sidorina, A. Isagulov, M. Rabatuly, K. Nogaeva
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Abstract

Important aspects of increasing the competitiveness of domestic metallurgy and mechanical engineering are increasing the durability of thermal units and involving non-traditional, cheaper energy resources in production. One of these resources is carbon waste from the aluminum industry - electrode scrap and waste from the carbon lining of electrolyzers. The problem of their use as substitutes for solid fuels (coke coal) in the metallurgical, engineering and energy industries is fluorine- and alkali-containing salts that impregnate them, destroying the traditional lining of thermal units. The development of effective refractories resistant to fluorine- and alkali-containing corrodants (melts and gases) makes it possible to increase the competitiveness and efficiency of thermal units both through the use of cheaper energy carriers and by increasing the duration of their campaign. An important aspect is the simultaneous disposal of hazardous industrial waste and the reduction of the environmental burden on the ecosphere of the Republic of Kazakhstan. The basis for the development of new refractory materials resistant to fluorine- and alkali-containing corrodants is the analysis of the existing raw material base of the Republic of Kazakhstan and the choice of materials that make it possible to obtain aluminosilicate refractories with increased chemical resistance. In the work, the phase and chemical composition of refractory clays and kaolins of the Republic of Kazakhstan were studied, their rheological and thermophysical properties were investigated. Selected raw materials for the development of technology for the production of dense aluminosilicate refractory products.
哈萨克斯坦耐火原料的研究
提高国内冶金和机械工程的竞争力的重要方面是提高热装置的耐久性,并在生产中使用非传统、更便宜的能源。这些资源之一是来自铝工业的碳废料——电极废料和电解槽碳衬里的废料。它们在冶金、工程和能源工业中用作固体燃料(焦煤)的替代品的问题是,含氟和含碱的盐浸渍了它们,破坏了热装置的传统衬里。开发抗含氟和含碱腐蚀剂(熔体和气体)的有效耐火材料,可以通过使用更便宜的能源载体和延长其运行时间,提高热装置的竞争力和效率。一个重要方面是同时处理有害工业废物和减轻哈萨克斯坦共和国生态圈的环境负担。开发耐含氟和碱腐蚀剂的新型耐火材料的基础是分析哈萨克斯坦共和国现有的原料基础和选择材料,从而有可能获得耐化学性更高的铝硅酸盐耐火材料。研究了哈萨克斯坦耐火粘土和高岭土的物相和化学组成,并对其流变学和热物理性质进行了研究。选定原料进行工艺开发,用于生产致密硅酸铝耐火制品。
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来源期刊
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42.90%
发文量
55
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