F. Sae ´z del Bosque, Isabel


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Understanding the carbonation of concrete with supplementary cementitious materials: a critical review by RILEM TC 281-CCC

von Greve-Dierfeld, Stefanie; Lothenbach, Barbara; Vollpracht, Anya; Wu, Bei; Huet, Bruno; Andrade, Carmen; Medina Martinez, Cesar; Thiel, Charlotte; Gruyaert, Elke; Vanoutrive, Hanne; F. Sae ´z del Bosque, Isabel; Ignjatović, Ivan; Elsen, Jan; L. Provis, John; Scrivener, Karen; Thienel, Karl-Christian; Sideris, Kosmas; Zajac, Maciej; Alderete, Natalia; Cizer, Ozlem; Van den Heede, Philip; Douglas Hooton, Robert; Kamali-Bernard, Siham; A. Bernal, Susan; Zhao, Zengfeng; Shi, Zhenguo; De Belie, Nele

(Springer, 2020)

TY  - JOUR
AU  - von Greve-Dierfeld, Stefanie
AU  - Lothenbach, Barbara
AU  - Vollpracht, Anya
AU  - Wu, Bei
AU  - Huet, Bruno
AU  - Andrade, Carmen
AU  - Medina Martinez, Cesar
AU  - Thiel, Charlotte
AU  - Gruyaert, Elke
AU  - Vanoutrive, Hanne
AU  - F. Sae ´z del Bosque, Isabel
AU  - Ignjatović, Ivan
AU  - Elsen, Jan
AU  - L. Provis, John
AU  - Scrivener, Karen
AU  - Thienel, Karl-Christian
AU  - Sideris, Kosmas
AU  - Zajac, Maciej
AU  - Alderete, Natalia
AU  - Cizer, Ozlem
AU  - Van den Heede, Philip
AU  - Douglas Hooton, Robert
AU  - Kamali-Bernard, Siham
AU  - A. Bernal, Susan
AU  - Zhao, Zengfeng
AU  - Shi, Zhenguo
AU  - De Belie, Nele
PY  - 2020
UR  - https://grafar.grf.bg.ac.rs/handle/123456789/3159
AB  - Blended cements, where Portland cement clinker is partially replaced by supplementary cementitious materials (SCMs), provide the most feasible route for reducing carbon dioxide emissions associated with concrete production. However, lowering the clinker content can lead to an increasing risk of neutralisation of the concrete pore solution and potential reinforcement corrosion due to carbonation.carbonation of concrete with SCMs differs from carbonation of concrete solely based on Portland cement (PC). This is a consequence of the differences in the hydrate phase assemblage and pore solution chemistry, as well as the pore structure and transport properties, when varying the binder composition, age and curing conditions of the concretes. The carbonation mechanism and kinetics also depend on the saturation degree of the concrete and CO2 partial pressure which in turn depends on exposure conditions (e.g. relative humidity, volume, and duration of water
in contact with the concrete surface and temperature
conditions). This in turn inﬂuence the microstructural
changes identiﬁed upon carbonation. This literature
review, prepared by members of RILEM technical
committee 281-CCC carbonation of concrete with
supplementary cementitious materials, working
groups 1 and 2, elucidates the effect of numerous
SCM characteristics, exposure environments and
curing conditions on the carbonation mechanism,
kinetics and structural alterations in cementitious
systems containing SCMs.
PB  - Springer
T2  - Materials and Structures
T1  - Understanding the carbonation of concrete with supplementary cementitious materials: a critical review by RILEM TC 281-CCC
IS  - 136
VL  - 53
DO  - 10.1617/s11527-020-01558-w
ER  -

@article{
author = "von Greve-Dierfeld, Stefanie and Lothenbach, Barbara and Vollpracht, Anya and Wu, Bei and Huet, Bruno and Andrade, Carmen and Medina Martinez, Cesar and Thiel, Charlotte and Gruyaert, Elke and Vanoutrive, Hanne and F. Sae ´z del Bosque, Isabel and Ignjatović, Ivan and Elsen, Jan and L. Provis, John and Scrivener, Karen and Thienel, Karl-Christian and Sideris, Kosmas and Zajac, Maciej and Alderete, Natalia and Cizer, Ozlem and Van den Heede, Philip and Douglas Hooton, Robert and Kamali-Bernard, Siham and A. Bernal, Susan and Zhao, Zengfeng and Shi, Zhenguo and De Belie, Nele",
year = "2020",
abstract = "Blended cements, where Portland cement clinker is partially replaced by supplementary cementitious materials (SCMs), provide the most feasible route for reducing carbon dioxide emissions associated with concrete production. However, lowering the clinker content can lead to an increasing risk of neutralisation of the concrete pore solution and potential reinforcement corrosion due to carbonation.carbonation of concrete with SCMs differs from carbonation of concrete solely based on Portland cement (PC). This is a consequence of the differences in the hydrate phase assemblage and pore solution chemistry, as well as the pore structure and transport properties, when varying the binder composition, age and curing conditions of the concretes. The carbonation mechanism and kinetics also depend on the saturation degree of the concrete and CO2 partial pressure which in turn depends on exposure conditions (e.g. relative humidity, volume, and duration of water
in contact with the concrete surface and temperature
conditions). This in turn inﬂuence the microstructural
changes identiﬁed upon carbonation. This literature
review, prepared by members of RILEM technical
committee 281-CCC carbonation of concrete with
supplementary cementitious materials, working
groups 1 and 2, elucidates the effect of numerous
SCM characteristics, exposure environments and
curing conditions on the carbonation mechanism,
kinetics and structural alterations in cementitious
systems containing SCMs.",
publisher = "Springer",
journal = "Materials and Structures",
title = "Understanding the carbonation of concrete with supplementary cementitious materials: a critical review by RILEM TC 281-CCC",
number = "136",
volume = "53",
doi = "10.1617/s11527-020-01558-w"
}

von Greve-Dierfeld, S., Lothenbach, B., Vollpracht, A., Wu, B., Huet, B., Andrade, C., Medina Martinez, C., Thiel, C., Gruyaert, E., Vanoutrive, H., F. Sae ´z del Bosque, I., Ignjatović, I., Elsen, J., L. Provis, J., Scrivener, K., Thienel, K., Sideris, K., Zajac, M., Alderete, N., Cizer, O., Van den Heede, P., Douglas Hooton, R., Kamali-Bernard, S., A. Bernal, S., Zhao, Z., Shi, Z.,& De Belie, N.. (2020). Understanding the carbonation of concrete with supplementary cementitious materials: a critical review by RILEM TC 281-CCC. in Materials and Structures
Springer., 53(136).
https://doi.org/10.1617/s11527-020-01558-w

von Greve-Dierfeld S, Lothenbach B, Vollpracht A, Wu B, Huet B, Andrade C, Medina Martinez C, Thiel C, Gruyaert E, Vanoutrive H, F. Sae ´z del Bosque I, Ignjatović I, Elsen J, L. Provis J, Scrivener K, Thienel K, Sideris K, Zajac M, Alderete N, Cizer O, Van den Heede P, Douglas Hooton R, Kamali-Bernard S, A. Bernal S, Zhao Z, Shi Z, De Belie N. Understanding the carbonation of concrete with supplementary cementitious materials: a critical review by RILEM TC 281-CCC. in Materials and Structures. 2020;53(136).
doi:10.1617/s11527-020-01558-w .

von Greve-Dierfeld, Stefanie, Lothenbach, Barbara, Vollpracht, Anya, Wu, Bei, Huet, Bruno, Andrade, Carmen, Medina Martinez, Cesar, Thiel, Charlotte, Gruyaert, Elke, Vanoutrive, Hanne, F. Sae ´z del Bosque, Isabel, Ignjatović, Ivan, Elsen, Jan, L. Provis, John, Scrivener, Karen, Thienel, Karl-Christian, Sideris, Kosmas, Zajac, Maciej, Alderete, Natalia, Cizer, Ozlem, Van den Heede, Philip, Douglas Hooton, Robert, Kamali-Bernard, Siham, A. Bernal, Susan, Zhao, Zengfeng, Shi, Zhenguo, De Belie, Nele, "Understanding the carbonation of concrete with supplementary cementitious materials: a critical review by RILEM TC 281-CCC" in Materials and Structures, 53, no. 136 (2020),
https://doi.org/10.1617/s11527-020-01558-w . .

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