Authors
Stefanie von Greve-Dierfeld, Barbara Lothenbach, Anya Vollpracht, Bei Wu, Bruno Huet, Carmen Andrade, César Medina, Charlotte Thiel, Elke Gruyaert, Hanne Vanoutrive, Isabel F Saez del Bosque, Ivan Ignjatovic, Jan Elsen, John L Provis, Karen Scrivener, Karl-Christian Thienel, Kosmas Sideris, Maciej Zajac, Natalia Alderete, Özlem Cizer, Philip Van den Heede, Robert Douglas Hooton, Siham Kamali-Bernard, Susan A Bernal, Zengfeng Zhao, Zhenguo Shi, Nele De Belie
Publication date
2020/12
Source
Materials and Structures
Volume
53
Issue
6
Pages
136
Publisher
Springer Netherlands
Description
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 …
Scholar articles
S von Greve-Dierfeld, B Lothenbach, A Vollpracht… - Materials and Structures, 2020