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5-year chemico-physical evolution of concrete–claystone interfaces, Mont Terri rock laboratory (Switzerland)
Mäder, U., Jenni, A., Lerouge, C., Gaboreau, S., Miyoshi, S., Kimura, Y., … Lothenbach, B. (2017). 5-year chemico-physical evolution of concrete–claystone interfaces, Mont Terri rock laboratory (Switzerland). Swiss Journal of Geosciences, 110, 307-327. https://doi.org/10.1007/s00015-016-0240-5
A long-term study on structural changes in calcium aluminate silicate hydrates
Barzgar, S., Yan, Y., Tarik, M., Skibsted, J., Ludwig, C., & Lothenbach, B. (2022). A long-term study on structural changes in calcium aluminate silicate hydrates. Materials and Structures, 55, 243 (22 pp.). https://doi.org/10.1617/s11527-022-02080-x
A micro-XAS and XRD study of the crystalline alkali-silica reaction products
Geng, G., Shi, Z., Lothenbach, B., Leemann, A., Wieland, E., & Dähn, R. (2021). A micro-XAS and XRD study of the crystalline alkali-silica reaction products. In A. Lopes Batista, A. Santos Silva, I. Fernandes, L. Oliveira Santos, J. Custódio, & C. Serra (Eds.), Vol. 1. Proceedings of the 16th international conference on alkali-aggregate reaction in concrete (ICAAR) (pp. 15-23). Laboratório Nacional de Engenharia Civil (LNEC).
A new CASH+ solid solution model for cation uptake in cementitious materials used in waste management
Miron, G. D., Kulik, D. A., Lothenbach, B., & Tits, J. (2022). A new CASH+ solid solution model for cation uptake in cementitious materials used in waste management (p. (3 pp.). Presented at the NUWCEM 2022 - international symposium on cement-based materials for nuclear wastes. .
A practical guide to microstructural analysis of cementitious materials
Scrivener, K., Snellings, R., & Lothenbach, B. (Eds.). (2016). A practical guide to microstructural analysis of cementitious materials.
A structurally-consistent CASH+ sublattice solid solution model for fully hydrated C-S-H phases: thermodynamic basis, methods, and Ca-Si-H<sub>2</sub>O core sub-model
Kulik, D. A., Miron, G. D., & Lothenbach, B. (2022). A structurally-consistent CASH+ sublattice solid solution model for fully hydrated C-S-H phases: thermodynamic basis, methods, and Ca-Si-H2O core sub-model. Cement and Concrete Research, 151, 106585 (21 pp.). https://doi.org/10.1016/j.cemconres.2021.106585
A thermodynamic and experimental study of the conditions of thaumasite formation
Schmidt, T., Lothenbach, B., Romer, M., Scrivener, K., Rentsch, D., & Figi, R. (2008). A thermodynamic and experimental study of the conditions of thaumasite formation. Cement and Concrete Research, 38(3), 337-349. https://doi.org/10.1016/j.cemconres.2007.11.003
A thermodynamic approach to cement hydration: the role of retarding admixtures and Fe-minerals during the hydration of cements
Möschner, G. (2007). A thermodynamic approach to cement hydration: the role of retarding admixtures and Fe-minerals during the hydration of cements [Doctoral dissertation, ETH Zürich]. https://doi.org/10.3929/ethz-a-005539364
A thermodynamic approach to the hydration of sulphate-resisting Portland cement
Lothenbach, B., & Wieland, E. (2006). A thermodynamic approach to the hydration of sulphate-resisting Portland cement. Waste Management, 26(7), 706-719. https://doi.org/10.1016/j.wasman.2006.01.023
Al uptake in calcium silicate hydrate and the effect of alkali hydroxide
Yan, Y., Ma, B., Miron, G. D., Kulik, D. A., Scrivener, K., & Lothenbach, B. (2022). Al uptake in calcium silicate hydrate and the effect of alkali hydroxide. Cement and Concrete Research, 162, 106957 (17 pp.). https://doi.org/10.1016/j.cemconres.2022.106957
Alkali binding by magnesium silicate hydrates
Bernard, E., Lothenbach, B., Pochard, I., & Cau‐Dit‐Coumes, C. (2019). Alkali binding by magnesium silicate hydrates. Journal of the American Ceramic Society, 102(10), 6322-6336. https://doi.org/10.1111/jace.16494
Alkali silica reaction in concrete - Revealing the expansion mechanism by surface force measurements
Leemann, A., Góra, M., Lothenbach, B., & Heuberger, M. (2024). Alkali silica reaction in concrete - Revealing the expansion mechanism by surface force measurements. Cement and Concrete Research, 176, 107392 (13 pp.). https://doi.org/10.1016/j.cemconres.2023.107392
Alkali uptake in calcium alumina silicate hydrate (C-A-S-H)
L'Hôpital, E., Lothenbach, B., Scrivener, K., & Kulik, D. A. (2016). Alkali uptake in calcium alumina silicate hydrate (C-A-S-H). Cement and Concrete Research, 85, 122-136. https://doi.org/10.1016/j.cemconres.2016.03.009
Alkali-silica reaction – a multidisciplinary approach
Leemann, A., Bagheri, M., Lothenbach, B., Scrivener, K., Barbotin, S., Boehm-Courjault, E., … Molinari, J. F. (2021). Alkali-silica reaction – a multidisciplinary approach. RILEM Technical Letters, 6, 169-187. https://doi.org/10.21809/rilemtechlett.2021.151
Alkali–silica reaction: the influence of calcium on silica dissolution and the formation of reaction products
Leemann, A., Le Saout, G., Winnefeld, F., Rentsch, D., & Lothenbach, B. (2011). Alkali–silica reaction: the influence of calcium on silica dissolution and the formation of reaction products. Journal of the American Ceramic Society, 94(4), 1243-1249. https://doi.org/10.1111/j.1551-2916.2010.04202.x
Aluminium and alkali uptake in calcium silicate hydrates (C-S-H)
L'Hôpital, E. (2014). Aluminium and alkali uptake in calcium silicate hydrates (C-S-H) [Doctoral dissertation, EPF Lausanne]. https://doi.org/10.5075/epfl-thesis-6389
Aluminum incorporation into magnesium silicate hydrate (M-S-H)
Bernard, E., Lothenbach, B., Cau-Dit-Coumes, C., Pochard, I., & Rentsch, D. (2020). Aluminum incorporation into magnesium silicate hydrate (M-S-H). Cement and Concrete Research, 128, 105931 (15 pp.). https://doi.org/10.1016/j.cemconres.2019.105931
An insight into non-ferrous slags as supplementary cementitious materials
Pedersen, M. T., Lothenbach, B., & Winnefeld, F. (2021). An insight into non-ferrous slags as supplementary cementitious materials. In A. Tagnit-Hamou (Ed.), Vol. 349. ICCM2021 11th ACI/Rilem international conference on cementitious materials and alternative binders for sustainable concrete (pp. 321-331). American Concrete Institute.
An internally consistent thermodynamic dataset for aqueous species in the system Ca-Mg-Na-K-Al-Si-O-H-C-Cl to 800 °C and 5 kbar
Miron, G. D., Wagner, T., Kulik, D. A., & Lothenbach, B. (2017). An internally consistent thermodynamic dataset for aqueous species in the system Ca-Mg-Na-K-Al-Si-O-H-C-Cl to 800 °C and 5 kbar. American Journal of Science, 317(7), 755-806. https://doi.org/10.2475/07.2017.01
Analysis of the trend of pH changes of concrete pore solution during the hydration by various analytical methods
Natkunarajah, K., Masilamani, K., Maheswaran, S., Lothenbach, B., Amarasinghe, D. A. S., & Attygalle, D. (2022). Analysis of the trend of pH changes of concrete pore solution during the hydration by various analytical methods. Cement and Concrete Research, 156, 106780 (7 pp.). https://doi.org/10.1016/j.cemconres.2022.106780
 

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