Enhancement of Mechanical Properties and Porosity of Concrete Using Steel Slag Coarse Aggregate

Enhancement of Mechanical Properties and Porosity of Concrete Using Steel Slag Coarse Aggregate

This paper investigates the possibility of utilizing steel slags produced in the steelmaking industry as an alternative to burnt clay brick aggregate (BA) in concrete. Within this context, physical, mechanical (i.e., compressive and splitting tensile strength), length change, and durability (porosit...

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Bibliographic Details
Published in:Materials Vol. 13; no. 12; p. 2865
Main Authors: Miah, Md Jihad, Patoary, Md. Munir Hossain, Paul, Suvash Chandra, Babafemi, Adewumi John, Panda, Biranchi
Format: Journal Article
Language:English
Published: Basel MDPI AG 26-06-2020
MDPI
Subjects:
Aggregates
By products
Cement
Chemical composition
Compressive strength
Concrete construction
Concrete mixing
Construction materials
Density
Investigations
Mechanical properties
Microstructural analysis
Physical properties
Porosity
Raw materials
Slag
Steel making
Stone
Tensile strength
X ray fluorescence analysis
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Summary:This paper investigates the possibility of utilizing steel slags produced in the steelmaking industry as an alternative to burnt clay brick aggregate (BA) in concrete. Within this context, physical, mechanical (i.e., compressive and splitting tensile strength), length change, and durability (porosity) tests were conducted on concrete made with nine different percentage replacements (0%, 10%, 20%, 30%, 40%, 50%, 60%, 80%, and 100% by volume of BA) of BA by induction of furnace steel slag aggregate (SSA). In addition, the chemical composition of aggregate through X-ray fluorescence (XRF) analysis and microstructural analysis through scanning electron microscopy (SEM) of aggregates and concrete were performed. The experimental results show that the physical and mechanical properties of concrete made with SSA were significantly higher than that of concrete made with BA. The compressive and tensile strength increased by 73% when SSA fully replaced BA. The expansion of concrete made with SSA was a bit higher than the concrete made with BA. Furthermore, a significant lower porosity was observed for concrete made with SSA than BA, which decreased by 40% for 100% SSA concrete than 100% BA concrete. The relation between compressive and tensile strength with the porosity of concrete mixes are in agreement with the relationships presented in the literature. This study demonstrates that SSA can be used as a full replacement of BA, which is economical, conserves the natural aggregate, and is sustainable building material since burning brick produces a lot of CO2.
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ISSN:1996-1944
1996-1944
DOI:10.3390/ma13122865