Recycling of Eggshell Powder and Wheat Straw Ash as Cement Replacement Materials in Mortar

Civil Engineering Journal Pub Date : 2024-01-01 DOI:10.28991/cej-2024-010-01-05

Ahlam O. Hussein, R. J. Ghayyib, Faten M. Radi, Z. Jawad, M. Nasr, A. Shubbar

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Abstract

Cement is among the important contributors to carbon dioxide emissions in modern society. Researchers are studying solutions to reduce the cement content in concrete to minimize the negative impact on the environment. Among these solutions is replacing cement with other materials, such as waste, which also poses environmental damage and requires landfill areas for disposal. Among these wastes are eggshell powder ash (ESPA) and wheat straw ash (WSA), which were utilized as cement substitutes in green mortar production. Thirteen mixtures were cast, one as a reference without replacement and twelve others that included replacing ESPA and WSA (single and combined) with cement in 2%, 4%, 6%, and 8% proportions of cement's weight. The mechanical (compressive and flexural strength), microstructural (SEM), and thermogravimetric analysis (TG/DTA) properties of all mixtures were examined. The results showed a remarkable improvement in mechanical properties, and the best improvement was recorded for the (4%ESPA+4%WSA) mixture, which reached 73.3% in compressive strength and 56% in flexural strength, superior to the reference mixture. Furthermore, SEM analyses showed a dense and compact microstructure for the ESPA and WSA-based mortars. Therefore, the WSA and ESPA wastes can be recycled and utilized as a substitute for cement to produce an eco-friendly binder that significantly improves the microstructural and mechanical characteristics of mortar. In addition, combining the two materials also presents a viable option for creating a sustainable ternary blended binder (with cement) that boasts superior properties compared to using the WSA or ESPA individually. Doi: 10.28991/CEJ-2024-010-01-05 Full Text: PDF

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回收蛋壳粉和麦秸灰作为砂浆中的水泥替代材料

水泥是造成现代社会二氧化碳排放的重要因素之一。研究人员正在研究降低混凝土中水泥含量的解决方案，以尽量减少对环境的负面影响。这些解决方案包括用其他材料（如废弃物）代替水泥，因为废弃物也会对环境造成破坏，并且需要填埋场来处理。这些废物包括蛋壳粉灰（ESPA）和小麦秸秆灰（WSA），它们被用作绿色砂浆生产中的水泥替代品。共浇注了 13 种混合物，其中一种作为不含替代物的参照物，另外 12 种混合物包括以水泥重量的 2%、4%、6% 和 8%的比例替代 ESPA 和 WSA（单一和组合）。对所有混合物的机械（抗压和抗折强度）、微观结构（扫描电镜）和热重分析（TG/DTA）性能进行了检测。结果表明，混合物的机械性能有明显改善，其中（4%ESPA+4%WSA）混合物的机械性能改善最好，抗压强度和抗折强度分别达到 73.3% 和 56%，优于参考混合物。此外，扫描电镜分析表明，ESPA 和 WSA 砂浆的微观结构致密而紧密。因此，可回收利用 WSA 和 ESPA 废弃物作为水泥的替代品，生产出一种环保型粘结剂，显著改善砂浆的微观结构和机械特性。此外，将这两种材料结合在一起也是一种可行的选择，可以制造出一种可持续的三元混合粘结剂（与水泥），与单独使用 WSA 或 ESPA 相比，这种粘结剂具有更优异的性能。Doi: 10.28991/CEJ-2024-010-01-05 全文：PDF

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Civil Engineering Journal

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