Publication: Effect of silica fume on the properties of sustainable cement concrete
Date
2023
Authors
Hamada H.M.
Abed F.
Binti Katman H.Y.
Humada A.M.
Al Jawahery M.S.
Majdi A.
Yousif S.T.
Thomas B.S.
Journal Title
Journal ISSN
Volume Title
Publisher
Elsevier Editora Ltda
Abstract
The disposal of hazardous waste materials in landfills and open areas creates a severe impact on the environment. Silica Fume (SF), a by-product from the ferrosilicon and silicon industry, is generated in high quantities. Recent studies have highlighted the advantages of reusing SF to produce high-strength concrete (HSC) and ultra-high-performance concrete (UHPC) instead of discarding it. This paper herein reviews the current research on SF in concrete and discusses the physical and chemical properties, mechanical properties, durability, and microstructure. Depending on the concentration of the SF, flexural, tensile, and compressive strength was positively influenced. Also, SF improved the pore size to increase drying shrinkage through the pozzolanic reaction. A few studies showed the disadvantages of SF exhibiting the negative impact on workability and shrinkage of concrete. The influence of SF on cement hydration products should be analyzed from the microstructure perspective. � 2023 The Author(s)
Description
Keywords
Cement concrete , Energy , Hazardous materials , Silica fume , Ultra-high-performance concrete , Compressive strength , Durability , Ferroalloys , Hazardous materials , Hazards , Hydration , Microstructure , Pore size , Pozzolanic materials , Shrinkage , Waste disposal , 'current , Cement concrete , Energy , Ferrosilicon industry , Hazardous waste materials , High strength concretes , Impact on the environment , Property , Silicon industry , Sustainable cements , Silica fume