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A platform for research: civil engineering, architecture and urbanism
Byproduct-based ettringite binder – A synergy between ladle slag and gypsum
https://orcid.org/0000-0003-3716-8504
https://orcid.org/0000-0002-4297-6584
https://orcid.org/0000-0001-8490-1890
https://orcid.org/0000-0001-7545-4574
Graphical abstract Display Omitted
Highlights An ettringite-based binder from the hydration between ladle slag with gypsum was developed. The mineralogy of the binder was investigated and compared with a hydrated ladle slag binder. The binder has good mechanical properties and excellent freeze-thaw resistance.
Abstract Ladle slag (LS) is a byproduct from the steel industry that is usually reactive on its own and hydrates towards cementitious phases when mixed with water. However, these reaction products are often metastable, leading to micro-structural changes between 7 and 30 days after mixing. To address this issue, in this experimental investigation, a new binder was designed where LS was mixed with gypsum in order to deliver an ettringite-based binder (LSG). The experimental results revealed that the dominant crystalline phase of LSG was ettringite, which remained stable with no conversion at later stages. For better understanding of the ettringite-based binder, mortar characterization, mechanical properties, and durability of LSG were investigated. LSG showed good mechanical properties and excellent freeze-thaw resistance after 300 cycles, which is comparable to other calcium sulfoaluminate cements. Therefore, as a result, the byproduct-based ettringite binder synthesized herein could offer a solution to steelmaking byproducts with a low-CO2 binder, which could be used in a wide range of applications in the construction industry.
Byproduct-based ettringite binder – A synergy between ladle slag and gypsum
https://orcid.org/0000-0003-3716-8504
https://orcid.org/0000-0002-4297-6584
https://orcid.org/0000-0001-8490-1890
https://orcid.org/0000-0001-7545-4574
Graphical abstract Display Omitted
Highlights An ettringite-based binder from the hydration between ladle slag with gypsum was developed. The mineralogy of the binder was investigated and compared with a hydrated ladle slag binder. The binder has good mechanical properties and excellent freeze-thaw resistance.
Abstract Ladle slag (LS) is a byproduct from the steel industry that is usually reactive on its own and hydrates towards cementitious phases when mixed with water. However, these reaction products are often metastable, leading to micro-structural changes between 7 and 30 days after mixing. To address this issue, in this experimental investigation, a new binder was designed where LS was mixed with gypsum in order to deliver an ettringite-based binder (LSG). The experimental results revealed that the dominant crystalline phase of LSG was ettringite, which remained stable with no conversion at later stages. For better understanding of the ettringite-based binder, mortar characterization, mechanical properties, and durability of LSG were investigated. LSG showed good mechanical properties and excellent freeze-thaw resistance after 300 cycles, which is comparable to other calcium sulfoaluminate cements. Therefore, as a result, the byproduct-based ettringite binder synthesized herein could offer a solution to steelmaking byproducts with a low-CO2 binder, which could be used in a wide range of applications in the construction industry.
Byproduct-based ettringite binder – A synergy between ladle slag and gypsum
https://orcid.org/0000-0003-3716-8504
https://orcid.org/0000-0002-4297-6584
https://orcid.org/0000-0001-8490-1890
https://orcid.org/0000-0001-7545-4574
Graphical abstract Display Omitted
Highlights An ettringite-based binder from the hydration between ladle slag with gypsum was developed. The mineralogy of the binder was investigated and compared with a hydrated ladle slag binder. The binder has good mechanical properties and excellent freeze-thaw resistance.
Abstract Ladle slag (LS) is a byproduct from the steel industry that is usually reactive on its own and hydrates towards cementitious phases when mixed with water. However, these reaction products are often metastable, leading to micro-structural changes between 7 and 30 days after mixing. To address this issue, in this experimental investigation, a new binder was designed where LS was mixed with gypsum in order to deliver an ettringite-based binder (LSG). The experimental results revealed that the dominant crystalline phase of LSG was ettringite, which remained stable with no conversion at later stages. For better understanding of the ettringite-based binder, mortar characterization, mechanical properties, and durability of LSG were investigated. LSG showed good mechanical properties and excellent freeze-thaw resistance after 300 cycles, which is comparable to other calcium sulfoaluminate cements. Therefore, as a result, the byproduct-based ettringite binder synthesized herein could offer a solution to steelmaking byproducts with a low-CO2 binder, which could be used in a wide range of applications in the construction industry.
Byproduct-based ettringite binder – A synergy between ladle slag and gypsum
Nguyen, Hoang (author) / Adesanya, Elijah (author) / Ohenoja, Katja (author) / Kriskova, Lubica (author) / Pontikes, Yiannis (author) / Kinnunen, Paivo (author) / Illikainen, Mirja (author)
Construction and Building Materials ; 197 ; 143-151
2018-11-22
9 pages
Article (Journal)
Electronic Resource
English
Byproduct-based ettringite binder – A synergy between ladle slag and gypsum
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