TAG 3.4 Concrete

FN-CAMP – Finnish Nuclear Concrete Ageing Management Project, VTT

Research reports:

Gu, Y. 2025. Assessment of alkali-silica reaction and aggressive aqueous attack in concrete 2024. VTT  Research Report, VTT-R-00725-24. 20 p.

Gu, Y. 2024. Assessment of alkali-silica reaction and aggressive aqueous attack in concrete 2023. VTT  Research Report, VTT-R-00023-24. 19 p.

Paukku, E. 2024. From Ageing Management to Long-Term Operations – Overview of Future NPP Needs. VTT Research Report, VTT-R-00086-24. 20 p. + app. 5 p.

 

PERCO2 – Long-term Performance Modelling of Concrete in Final Repositories of LILW Nuclear Waste , Aalto

Research reports:

Al-Nehawy, F., Ba Ragaa, A. 2024. Chemical analysis and microstructure of concrete after long-term exposure to LILW repositories condition – Part II,  D1.2  PERCO / WP1 – Durability testing of existing concrete specimens. Aalto University School of Engineering. Research Report, AALTO-R-001-2024. 63 p.

Al-Nehawy, F., Ba Ragaa, A. 2024. Laboratory investigation plan for accelerated leaching and thaumasite attack of cementitious materials,  D1.3  PERCO / WP1 – Durability testing of existing concrete specimens. Aalto University School of Engineering. Research Report, AALTO-R-002-2024. 25 p.

Al-Nehawy, F., Ba Ragaa, A. 2024. Summary of the characteristic properties of concrete for LILW waste repository. D2.2. PERCO2 / WP2 – Design new durable concretes for the LILW repositores. Aalto University School of Engineering. Research Report, AALTO-R-002-2024. 94 p.

Al-Nehawy, F., Ba Ragaa, A. 2023. Concrete mixtures, specimen, preparations, storage solution and testing plan, D2.1. PERCO2 / WP2 – Design new durable concretes for the LILW repositores. Aalto University School of Engineering. Research Report, AALTO-R-002-2023. 44 p.

Ba Ragaa, A., Al-Neshawy, F. 2023. State-of-the-art of mathematical models for chemical degradation of concrete, D3.1. PERCO2 project/WP3  – Mathematical models for estimating concrete aging. Aalto University School of Engineering. 69 p.

Conference papers and journal articles:

Ba Ragaa, A., Al-Neshawy, F. Noureldin, M. 2025. AI-based framework for concrete durability assessment using generative adversarial networks and bayesian neural networks. Construction and Building Materials. Volume 471, 11 April 2025, 140722. https://doi.org/10.1016/j.conbuildmat.2025.140722

Ba Ragaa, A., Al-Neshawy, F., Jolis, E.M., Kuva, J., Punkki, J. 2024. Long-term durability assessment of concrete in low and intermediate level waste repositories. Transactions of the SMrRT 27, Yokohama, Japan, March 3-8, 2024, Division IX.

Theses:

Sundström, N. 2024. Potential use of low-carbon concretes for low and intermediate level nuclear waste repositories. Master’s Thesis, Aalto University Master’s Programme in Building Technology. 99 p. + 25 p. https://urn.fi/URN:NBN:fi:aalto-202405263776

Ba Ragaa, A. 2023. Long-term durability testing of concrete in low and intermediate level waste repositories. Master’s Thesis, Aalto University Master’s Programme in Building Technology. 82 p. + 32 p. https://urn.fi/URN:NBN:fi:aalto-202306183982 

 

 

RACEMAT – Radionuclide transport in cementitious materials, HU, GTK

Research reports:

Sammaljärvi, J., Li, X., Siitari-Kauppi, M., Kuva, J., Jolis, E., Kortunov, E., Muniruzzaman, M., Jooshaki, M. 2024. Annual Report 2024 RACEMAT / WP1 – Radionuclides‘ transport in cementitious materials. University of Helsinki, Faculty of Science. 22 p.

Sammaljärvi, J., Li, X., Siitari-Kauppi, M., Kuva, J., Jolis, E., Kortunov, E., Muniruzzaman, M., Jooshaki, M. 2024. Annual Report 2024 RACEMAT / WP2 – Radionuclides’ transport in cementitious materials. University of Helsinki, Faculty of Science. 14 p.

Theses:

Saunamäki, A. 2024. Radionuclide diffusion and retention in LILW repository concrete. Master’s thesis, University of Helsinki. 37 p. http://urn.fi/URN:NBN:fi:hulib-202409104003