Journal ArticleDOI
Review on carbonation curing of cement-based materials
TLDR
Carbonation for the curing of cement-based materials has been gaining increased attention in recent years, especially in light of emerging initiatives regarding carbon emissions as discussed by the authors, and the status quo of the carbonation curing process with insight into the approach's scientific premise, industrial scalability, and commercial spin-offs.Abstract:
Carbonation for the curing of cement-based materials has been gaining increased attention in recent years, especially in light of emerging initiatives regarding carbon emissions. This article reviews the status quo of the carbonation curing process with insight into the approach’s scientific premise, industrial scalability, and commercial spin-offs. Calcium-silicate-based binders, such as Portland cement and its lower energy alternatives, experience very rapid hardening when adequately moistened and exposed to high concentrations of carbon dioxide. Concretes processed as such display improved physical performance and better overall resistance to freeze-thaw cycles, sulfate salts, and acids. In addition to binder activation, carbonation’s valorizing potential can also be exploited to recycle suitable industrial wastes into raw building materials. The perpetual fixation of carbon dioxide in building products conduces a more sustainable stance for the concrete industry as it fulfills mandates for lower carbon footprint. In this article, topics relevant to carbonation curing including reaction mechanisms, processing and impacts on material performance and sustainability are comprehensively reviewed. Further laboratory and industrial research are also proposed.read more
Citations
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Journal ArticleDOI
Utilization of CO2 curing to enhance the properties of recycled aggregate and prepared concrete: A review
TL;DR: In this paper, the authors reviewed the published literatures on the use of CO2 curing to enhance the properties of the recycled aggregate (RA) and prepared RAC, and the results showed that the RA properties, CO2 concentration and pressure, relative humidity and curing time all had a significant impact on the CRA.
Journal ArticleDOI
Discontinuous micro-fibers as intrinsic reinforcement for ductile Engineered Cementitious Composites (ECC)
Duo Zhang,Jing Yu,Jing Yu,Haoliang Wu,Haoliang Wu,Beata Jaworska,Beata Jaworska,Brian R. Ellis,Victor C. Li +8 more
TL;DR: In this article, the state-of-the-art of discontinuous micro-fibers as intrinsic reinforcement of ECC regarding technical performance as well as environmental and economic impacts is reviewed.
Journal ArticleDOI
Utilising CO2 technologies for recycled aggregate concrete: A critical review
TL;DR: In this paper, the authors provide an insight into the available CO2 technologies for concrete improvement, including carbon-conditioning and carbon-curing, for improving the overall quality of recycled aggregate concrete as well as permanently chemically converting CO2 into stone.
Journal ArticleDOI
CO2 activated steel slag-based materials: A review
TL;DR: In this article, the feasibility of steel slag-based construction materials activated by carbonation was reviewed by analysing different steel slags, its chemical composition and carbonation reaction.
Journal ArticleDOI
Effect of carbonation curing regime on strength and microstructure of Portland cement paste
Tiefeng Chen,Xiaojian Gao +1 more
TL;DR: In this article, the effects of pre-curing and carbonation duration on compressive strength and microstructure characteristics of Portland cement paste were investigated, and it was shown that 30-40% water loss of cement paste is ideal for CO2 uptake.
References
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Journal ArticleDOI
Tobermorite/jennite- and tobermorite/calcium hydroxide-based models for the structure of C-S-H: applicability to hardened pastes of tricalcium silicate, β-dicalcium silicate, Portland cement, and blends of Portland cement with blast-furnace slag, metakaolin, or silica fume
TL;DR: In this article, the applicability of the tobermorite-jennite (T/J) and T/CH viewpoints for the nanostructure of C-S-H present in real cement pastes is discussed.
Journal ArticleDOI
The nature of C-S-H in hardened cements
TL;DR: In this paper, the morphology, composition, and nanostructure of C-S-H in a range of hardened cements were investigated. But the authors focused on the inner product (Ip) of a slag-based mixture of Portland cement and slag.
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A review of accelerated carbonation technology in the treatment of cement-based materials and sequestration of CO2
TL;DR: The effects of the accelerated carbonation reaction on the solid phase are discussed and future potential applications of this technology are also considered.
| A Practical Guide to Microstructural Analysis of Cementitious Materials | Taylor & Francis Group
TL;DR: Lothenbach et al. as discussed by the authors described the development of Cement Hydration using Chemical Shrinkage Mette Geiker X-Ray Powder Diffraction Ruben Snellings Thermogravimetric Analysis Barbara Lothenbach, Pawel Durdzinski and Klaartje de Weerdt High-Resolution Solid-State Nuclear Magnetic Resonance Spectroscopy of Portland Cement-Based Systems Jorgen Skibsted Proton Nuclear Magnetic resonance Relaxometry Arnaud C. Muller, Jonathan Mitchell and Peter J. Rossen Mercury Intr
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Mineral CO2 sequestration by steel slag carbonation.
TL;DR: Alkaline Ca-rich industrial residues are presented as a possible feedstock for mineral CO2 sequestration and the carbonation reaction was found to occur in two steps: leaching of calcium from the steel slag particles into the solution and precipitation of calcite on the surface of these particles.
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