探索赤泥对混凝土力学性能、耐久性能和微观结构性能的影响

Prathamesh Pawar, Sudhir Patil, Sandeep Sathe
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摘要

目的本研究调查了在混凝土中用赤泥(RM)部分替代水泥的潜力,并考察了其对混凝土机械性能和微观结构的影响。本研究旨在探索传统水泥的可持续替代品,并评估不同比例(%)的赤泥作为水泥替代品的混凝土混合物的性能。本研究旨在全面了解赤泥对混凝土的影响,以实现环境的可持续发展和改进建筑材料。随后,制备了不同 RM 含量的混凝土混合物,RM 含量从 0% 到 21%,以 3% 为增量,取代水泥。使用坍落度锥试验评估了这些混合物的工作性,并通过标准化测试评估了其机械性能(抗压强度、抗弯强度和劈裂拉伸强度)。此外,还通过吸水率、酸侵蚀、快速氯化物渗透性测试、开孔率测试和吸水率测试对耐久性进行了进一步研究。为了深入了解混凝土的内部结构,使用 X 射线衍射和扫描电子显微镜进行了微观结构分析。研究结果表明,用 RM 替代 12% 的水泥不仅能提高混凝土的机械性能,还能减少废物处置。微观结构分析表明,水泥基质更加致密,水泥浆与骨料之间的粘结性得到改善,这表明水泥的强度和耐久性有可能得到提高。
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Exploring the impact of red mud on the mechanical, durability, and microstructure properties of concrete
Purpose This study investigated the potential of partially replacing cement with red mud (RM) in concrete and examined its effects on its mechanical properties and microstructure. This study aims to explore sustainable alternatives to traditional cement and evaluate the performance of concrete mixtures with varying percentages (%) of RM as cement replacement. Design/methodology/approach This research aims to comprehensively understand the impact of RM on concrete, aiming for both environmental sustainability and improved construction materials. Subsequently, concrete mixtures were prepared with varying RM contents, ranging from 0% to 21% in increments of 3%, replacing cement. The workability of these mixtures was evaluated using the Slump Cone Test, whereas their mechanical properties (compressive strength, flexural strength and split tensile strength) were assessed through standardized tests. The durability was further investigated via water absorption, acid attack, rapid chloride permeability tests, open porosity test and Sorptivity test. To gain deeper insights into the internal structure of concrete, microstructure analysis was conducted using X-ray diffraction and scanning electron microscopy. Finally, the results were analyzed and quantified. Findings The finding demonstrates that substituting 12% of cement with RM not only boosts the mechanical characteristics of concrete but also mitigates waste disposal. The microstructural analysis identified a denser cement matrix and improved bonding between the cement paste and the aggregates, suggesting potential improvements in strength and durability. Originality/value These results suggest that RM can be efficiently used to produce sustainable concrete with potential applications in construction projects with environmental considerations.
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