Recommendations of RILEM TC 287-CCS: thermo-chemomechanical modelling of massive concrete structures towards cracking risk assessment

Miguel Azenha; Fragkoulis Kanavaris; Dirk Schlicke; Agnieszka Jędrzejewska; Farid Benboudjema; Túlio Honório; Vít  Šmilauer; Carlos Serra; John Forth; Kyle Riding; Binod  Khadka; Carlos Sousa; Matthieu Briffaut; Laurie Lacarrière; Eddie Koenders; Terje Kanstad; Anja Brigitte Klausen; Jean-Michel Torrenti; Eduardo Fairbairn

doi:10.1617/s11527-021-01732-8

Recommendations of RILEM TC 287-CCS: thermo-chemomechanical modelling of massive concrete structures towards cracking risk assessment

Miguel Azenha^*, Fragkoulis Kanavaris, Dirk Schlicke, Agnieszka Jędrzejewska, Farid Benboudjema, Túlio Honório, Vít Šmilauer, Carlos Serra, John Forth, Kyle Riding, Binod Khadka, Carlos Sousa, Matthieu Briffaut, Laurie Lacarrière, Eddie Koenders, Terje Kanstad, Anja Brigitte Klausen, Jean-Michel Torrenti, Eduardo Fairbairn

^*Corresponding author for this work

Institute of Structural Concrete (2030)

Research output: Contribution to journal › Article › peer-review

Abstract

These recommendations have been prepared by the corresponding working group within RILEM TC 287-CCS “Early-age and long-term crack width analysis in RC structures”, following work by the previously ceased RILEM TC 254-CMS “Thermal cracking of massive concrete structures”. This recommendations document is developed in complementarity to the state-of-the-art report of RILEM TC 254-CMS and aims to provide expert advice and suggestions to engineers and scientists interested in modelling the thermo-chemo-mechanical behaviour of massive concrete structures since concrete casting. Recommendations regarding geometrical characteristics and complexities, concrete properties and appropriate material models, boundary conditions and loads, and numerical model peculiarities with relevance to the simulation of the thermo-chemo-mechanical behaviour of massive concrete structures are given herein. The recommendations have been reviewed and approved by all members of the TC 287-CCS.

Original language	English
Article number	135
Number of pages	13
Journal	Materials and Structures
Volume	54
Issue number	4
DOIs	https://doi.org/10.1617/s11527-021-01732-8
Publication status	Published - Aug 2021

Keywords

One-way slab
Restrained shrinkage
Service life behaviour
Thermo-hygro-mechanical modelling
Thermo-chemo-mechanical
Modelling strategy
Cracking risk
Numerical simulation
Parameter choice
Massive concrete structures

ASJC Scopus subject areas

Civil and Structural Engineering
Mechanics of Materials
General Materials Science
Building and Construction

Fields of Expertise

Sustainable Systems

Access to Document

10.1617/s11527-021-01732-8

Cite this

Azenha, M., Kanavaris, F., Schlicke, D., Jędrzejewska, A., Benboudjema, F., Honório, T., Šmilauer, V., Serra, C., Forth, J., Riding, K., Khadka, B., Sousa, C., Briffaut, M., Lacarrière, L., Koenders, E., Kanstad, T., Klausen, A. B., Torrenti, J.-M., & Fairbairn, E. (2021). Recommendations of RILEM TC 287-CCS: thermo-chemomechanical modelling of massive concrete structures towards cracking risk assessment. Materials and Structures, 54(4), Article 135. https://doi.org/10.1617/s11527-021-01732-8

Azenha, M, Kanavaris, F, Schlicke, D, Jędrzejewska, A, Benboudjema, F, Honório, T, Šmilauer, V, Serra, C, Forth, J, Riding, K, Khadka, B, Sousa, C, Briffaut, M, Lacarrière, L, Koenders, E, Kanstad, T, Klausen, AB, Torrenti, J-M & Fairbairn, E 2021, 'Recommendations of RILEM TC 287-CCS: thermo-chemomechanical modelling of massive concrete structures towards cracking risk assessment', Materials and Structures, vol. 54, no. 4, 135. https://doi.org/10.1617/s11527-021-01732-8

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abstract = "These recommendations have been prepared by the corresponding working group within RILEM TC 287-CCS “Early-age and long-term crack width analysis in RC structures”, following work by the previously ceased RILEM TC 254-CMS “Thermal cracking of massive concrete structures”. This recommendations document is developed in complementarity to the state-of-the-art report of RILEM TC 254-CMS and aims to provide expert advice and suggestions to engineers and scientists interested in modelling the thermo-chemo-mechanical behaviour of massive concrete structures since concrete casting. Recommendations regarding geometrical characteristics and complexities, concrete properties and appropriate material models, boundary conditions and loads, and numerical model peculiarities with relevance to the simulation of the thermo-chemo-mechanical behaviour of massive concrete structures are given herein. The recommendations have been reviewed and approved by all members of the TC 287-CCS.",

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AU - Benboudjema, Farid

AU - Honório, Túlio

AU - Šmilauer, Vít

AU - Serra, Carlos

AU - Forth, John

AU - Riding, Kyle

AU - Khadka, Binod

AU - Sousa, Carlos

AU - Briffaut, Matthieu

AU - Lacarrière, Laurie

AU - Koenders, Eddie

AU - Kanstad, Terje

AU - Klausen, Anja Brigitte

AU - Torrenti, Jean-Michel

AU - Fairbairn, Eduardo

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N2 - These recommendations have been prepared by the corresponding working group within RILEM TC 287-CCS “Early-age and long-term crack width analysis in RC structures”, following work by the previously ceased RILEM TC 254-CMS “Thermal cracking of massive concrete structures”. This recommendations document is developed in complementarity to the state-of-the-art report of RILEM TC 254-CMS and aims to provide expert advice and suggestions to engineers and scientists interested in modelling the thermo-chemo-mechanical behaviour of massive concrete structures since concrete casting. Recommendations regarding geometrical characteristics and complexities, concrete properties and appropriate material models, boundary conditions and loads, and numerical model peculiarities with relevance to the simulation of the thermo-chemo-mechanical behaviour of massive concrete structures are given herein. The recommendations have been reviewed and approved by all members of the TC 287-CCS.

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KW - Parameter choice

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Recommendations of RILEM TC 287-CCS: thermo-chemomechanical modelling of massive concrete structures towards cracking risk assessment

Abstract

Keywords

ASJC Scopus subject areas

Fields of Expertise

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