Properties and Microstructure of Treated Coal Bottom Ash as Cement Concrete Replacement

Moad Alosta; Ahmed Mamdouh; Hussein Al Mufargi; Farah N. A. Abd Aziz; Ahmed Rashid; Otman M. M. Elbasir; Husam Al Dughaishi

Properties and Microstructure of Treated Coal Bottom Ash as Cement Concrete Replacement

Publish place: Civil Engineering Journal، Vol: 10، Issue: 4

Publish Year: 1403

نوع سند: مقاله ژورنالی

زبان: English

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https://civilica.com/doc/1982900

شناسه ملی سند علمی:

JR_CEJ-10-4_008

تاریخ نمایه سازی: 1 خرداد 1403

Abstract:

Sustainable construction is a rapidly growing area of research focused on using industrial waste to replace Portland cement in concrete. This approach not only reduces CO۲emissions from cement production but also serves as an effective way to diminish the environmental impact of concrete production. This study aims to investigate the properties of Coal Bottom Ash (CBA) after undergoing two different treatments: flotation and burning. It also evaluates the impact of CBA as a cement replacement in concrete with different replacement percentages (۵%, ۱۰%, ۱۵%, and ۲۰%). Chemical analysis of CBA has revealed that it can be classified as a pozzolanic material due to its high content of silicates, aluminates, and iron oxides. The microstructure of CBA showed a porous, angular, and irregular surface with many voids. The findings of this study revealed that the optimum mix was ۱۰% CBA, resulting in a ۲% increase in compressive strength compared to the control mix after ۵۶ days of curing. Additionally, the study evaluated the effects of sulfate and chloride on concrete. It was found that the mix with the burning treatment showed an overall increase in strength, while the flotation treatment did not reach the control mix's strength in any of the curing periods. Furthermore, the results demonstrated that CBA has significant potential as a cement replacement material, and the burning treatment showed improvement in concrete's overall properties compared to the raw material in terms of mechanical and chemical properties while reducing greenhouse gas emissions and enhancing the environment. Doi: ۱۰.۲۸۹۹۱/CEJ-۲۰۲۴-۰۱۰-۰۴-۰۸ Full Text: PDF

Keywords:

Industrial Waste , Material Properties , Coal Bottom Ash , Compressive Strength , Microstructure.

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