Sustainable silico-aluminous refractory wastes as an alternative raw material for hydraulic binder for foundry industry

Maria de Lourdes dos Santos Schackow , Adilson Schackow , Karoline Bastos Mundstock , Marilena Valadares Folgueras
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Abstract

The foundry industry is responsible for consuming large quantities of lining materials and generating significant amounts of waste. Silico-aluminous linings are used in the production of cast iron due to their compatibility with molten metal and slag. However, after use, these materials are typically disposed of in industrial landfills, creating an environmental liability. This study demonstrated a feasible alternative approach to repurpose silico-aluminous refractory wastes from induction furnaces and casting ladles from the foundry industry to develop new materials for refractory hydraulic binders for lining (refractory patch). The wastes were characterized using X-ray Diffraction, X-ray Fluorescence Spectrometry, Thermal Analysis, Scanning Electron Microscopy, and particle size distribution. The behavior of the lining wastes was found to be compatible with the proposed application, despite the expected contamination. There is potential for cost savings of at least 25 % and promoting a culture of recycling.

Abstract Image

将可持续的硅铝质耐火废料作为铸造业液压粘结剂的替代原料
铸造业消耗大量衬里材料,并产生大量废物。硅铝内衬因其与熔融金属和熔渣的相容性而被用于铸铁生产。然而,这些材料在使用后通常会被丢弃到工业垃圾填埋场,造成环境污染。本研究展示了一种可行的替代方法,即重新利用铸造业感应炉和浇铸钢包中的硅铝质耐火废料,来开发新的耐火衬里液压粘结剂(耐火修补剂)材料。利用 X 射线衍射、X 射线荧光光谱、热分析、扫描电子显微镜和粒度分布对这些废料进行了表征。尽管存在预期的污染,但发现衬里废料的行为与拟议的应用相匹配。该项目有可能节约至少 25% 的成本,并促进回收文化的发展。
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CiteScore
9.20
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