Synthesis and Evaluation of Geopolymer Mixtures Containing Chronologically Aged Basic Oxygen Furnace Slags

Tukaziban, Aizhan; Shon, Chang-Seon; Zhang, Dichuan; Kim, Jong Ryeol; Kim, Ji-Hyun; Chung, Chul-Woo

doi:10.3390/su152416934

Sustainability

2023

DOI: 10.3390/su152416934

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Synthesis and Evaluation of Geopolymer Mixtures Containing Chronologically Aged Basic Oxygen Furnace Slags

Aizhan Tukaziban,

Chang-Seon Shon,

Dichuan Zhang

et al.

Abstract: Applying industrial by-products as a substitution for conventional construction materials (natural resources) is a superior solution for the environment in terms of waste management and reduction in greenhouse emissions and for the construction industry in terms of cost and expenditure. Applying basic oxygen furnace slag (BOFS), one of the metallurgical industry by-products, as a construction material can be a high-potential and promising idea. However, the utilization of BOFS in construction applications is c… Show more

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2024

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Utilizing mineral sequestration technology for enhanced performance of concrete containing basic oxygen furnace slag

Omarova,

Ualiyev,

Shon

et al. 2024

E3S Web Conf.

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Basic oxygen furnace slag (BOFS) is a widely available by product of the steel-making industry that poses high interest for scientists in various fields. The carbon capture potential of BOFS is proven to be high. However, its further uses are actively investigated. BOFS is particularly attractive as a construction material due to its hydraulic reactivity and good strength, making it suitable for use as binding material and aggregate in concrete. However, it has a major drawback - unstable compounds that lead to material deterioration caused by volumetric expansion. Most of the research in the field focuses on the processing of BOFS in laboratory or industrial settings to eliminate the expensive products inside the slag and make it more durable. The suitability of using mineral sequestration technology instead of artificially accelerated carbonation has not yet been studied well. This research aimed to identify the main properties of the mortar mixes containing BOFS that underwent mineral sequestration over a long period to assess the technology’s feasibility. The correlation with quantitative data from thermogravimetric analysis (TGA) was also identified. Based on test results, the correlation between aging conditions and CO2 uptake was established, indicating that stockpiled and wet/dry cycle conditions were the most optimal aging methods for BOFS to achieve the highest carbonation (4.15-5.15%), hence the maximum stabilization degree of aggregates.

show abstract

Utilizing mineral sequestration technology for enhanced performance of concrete containing basic oxygen furnace slag

Omarova,

Ualiyev,

Shon

et al. 2024

E3S Web Conf.

View full text Add to dashboard Cite

show abstract

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Synthesis and Evaluation of Geopolymer Mixtures Containing Chronologically Aged Basic Oxygen Furnace Slags

Cited by 1 publication

References 71 publications

Utilizing mineral sequestration technology for enhanced performance of concrete containing basic oxygen furnace slag

Utilizing mineral sequestration technology for enhanced performance of concrete containing basic oxygen furnace slag

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