COST TU1404 benchmark on macroscopic modelling of concrete and concrete structures at early age: Proof-of-concept stage

Agnieszka Jedrzejewska; Farid Benboudjema; Laurie Lacarrière; Miguel Azenha; Dirk Schlicke; Stefano Dal Pont; Arnaud  Delaplace; José  Granja; Karolina Hajkova; Peter Joachim Heinrich; Giuseppe  Sciumè; Emanuel  Strieder; Elisabeth  Stierschneider; Vít  Šmilauer; Vyacheslav  Troyan

doi:10.1016/j.conbuildmat.2018.04.088

COST TU1404 benchmark on macroscopic modelling of concrete and concrete structures at early age: Proof-of-concept stage

Agnieszka Jedrzejewska^*, Farid Benboudjema, Laurie Lacarrière, Miguel Azenha, Dirk Schlicke, Stefano Dal Pont, Arnaud Delaplace, José Granja, Karolina Hajkova, Peter Joachim Heinrich, Giuseppe Sciumè, Emanuel Strieder, Elisabeth Stierschneider, Vít Šmilauer, Vyacheslav Troyan

^*Corresponding author for this work

Institute of Structural Concrete (2030)

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

Abstract

Modelling of early-age behaviour of cement-based materials is still a challenging task. The challenge is implied by the extent of the knowledge on the subject which results in a variety of different models used for simulation of cement-based materials. That is why a numerical benchmark program has been launched within the COST Action TU1404 aiming at improvement and harmonisation of computational prediction of early-age behaviour of cement-based materials as well as its behaviour on structural level. This paper presents the result of the proof-of-concept stage of the benchmark.

The goal of this stage of benchmark was to compare the performance of currently used models for simulation of early-age behaviour of concrete. The participants were requested to simulate thermo-chemo-mechanical behaviour of simple concrete elements covering adiabatic and real evolution of temperature, shrinkage, stiffness and stresses accounting for early-age creep. The tasks were formulated based on the experimental measurements. This stage of benchmark allowed to evaluate the influence of different phenomena occurring in early-age concrete on the behaviour of early-age concrete structures, define the discrepancies between experimental results and numerical simulations, as well as to indicate the weak points in the models.

Original language	English
Pages (from-to)	173-189
Journal	Construction and Building Materials
Volume	174
DOIs	https://doi.org/10.1016/j.conbuildmat.2018.04.088
Publication status	Published - 2018

Fields of Expertise

Sustainable Systems

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10.1016/j.conbuildmat.2018.04.088

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Jedrzejewska, A., Benboudjema, F., Lacarrière, L., Azenha, M., Schlicke, D., Dal Pont, S., Delaplace, A., Granja, J., Hajkova, K., Heinrich, P. J., Sciumè, G., Strieder, E., Stierschneider, E., Šmilauer, V., & Troyan, V. (2018). COST TU1404 benchmark on macroscopic modelling of concrete and concrete structures at early age: Proof-of-concept stage. Construction and Building Materials , 174, 173-189. https://doi.org/10.1016/j.conbuildmat.2018.04.088

Jedrzejewska, A, Benboudjema, F, Lacarrière, L, Azenha, M, Schlicke, D, Dal Pont, S, Delaplace, A, Granja, J, Hajkova, K, Heinrich, PJ, Sciumè, G, Strieder, E, Stierschneider, E, Šmilauer, V & Troyan, V 2018, 'COST TU1404 benchmark on macroscopic modelling of concrete and concrete structures at early age: Proof-of-concept stage', Construction and Building Materials , vol. 174, pp. 173-189. https://doi.org/10.1016/j.conbuildmat.2018.04.088

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title = "COST TU1404 benchmark on macroscopic modelling of concrete and concrete structures at early age: Proof-of-concept stage",

abstract = "Modelling of early-age behaviour of cement-based materials is still a challenging task. The challenge is implied by the extent of the knowledge on the subject which results in a variety of different models used for simulation of cement-based materials. That is why a numerical benchmark program has been launched within the COST Action TU1404 aiming at improvement and harmonisation of computational prediction of early-age behaviour of cement-based materials as well as its behaviour on structural level. This paper presents the result of the proof-of-concept stage of the benchmark.The goal of this stage of benchmark was to compare the performance of currently used models for simulation of early-age behaviour of concrete. The participants were requested to simulate thermo-chemo-mechanical behaviour of simple concrete elements covering adiabatic and real evolution of temperature, shrinkage, stiffness and stresses accounting for early-age creep. The tasks were formulated based on the experimental measurements. This stage of benchmark allowed to evaluate the influence of different phenomena occurring in early-age concrete on the behaviour of early-age concrete structures, define the discrepancies between experimental results and numerical simulations, as well as to indicate the weak points in the models.",

author = "Agnieszka Jedrzejewska and Farid Benboudjema and Laurie Lacarri{\`e}re and Miguel Azenha and Dirk Schlicke and {Dal Pont}, Stefano and Arnaud Delaplace and Jos{\'e} Granja and Karolina Hajkova and Heinrich, {Peter Joachim} and Giuseppe Scium{\`e} and Emanuel Strieder and Elisabeth Stierschneider and V{\'i}t {\v S}milauer and Vyacheslav Troyan",

year = "2018",

doi = "10.1016/j.conbuildmat.2018.04.088",

language = "English",

volume = "174",

pages = "173--189",

journal = "Construction and Building Materials ",

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T1 - COST TU1404 benchmark on macroscopic modelling of concrete and concrete structures at early age: Proof-of-concept stage

AU - Jedrzejewska, Agnieszka

AU - Benboudjema, Farid

AU - Lacarrière, Laurie

AU - Azenha, Miguel

AU - Schlicke, Dirk

AU - Dal Pont, Stefano

AU - Delaplace, Arnaud

AU - Granja, José

AU - Hajkova, Karolina

AU - Heinrich, Peter Joachim

AU - Sciumè, Giuseppe

AU - Strieder, Emanuel

AU - Stierschneider, Elisabeth

AU - Šmilauer, Vít

AU - Troyan, Vyacheslav

PY - 2018

Y1 - 2018

N2 - Modelling of early-age behaviour of cement-based materials is still a challenging task. The challenge is implied by the extent of the knowledge on the subject which results in a variety of different models used for simulation of cement-based materials. That is why a numerical benchmark program has been launched within the COST Action TU1404 aiming at improvement and harmonisation of computational prediction of early-age behaviour of cement-based materials as well as its behaviour on structural level. This paper presents the result of the proof-of-concept stage of the benchmark.The goal of this stage of benchmark was to compare the performance of currently used models for simulation of early-age behaviour of concrete. The participants were requested to simulate thermo-chemo-mechanical behaviour of simple concrete elements covering adiabatic and real evolution of temperature, shrinkage, stiffness and stresses accounting for early-age creep. The tasks were formulated based on the experimental measurements. This stage of benchmark allowed to evaluate the influence of different phenomena occurring in early-age concrete on the behaviour of early-age concrete structures, define the discrepancies between experimental results and numerical simulations, as well as to indicate the weak points in the models.

AB - Modelling of early-age behaviour of cement-based materials is still a challenging task. The challenge is implied by the extent of the knowledge on the subject which results in a variety of different models used for simulation of cement-based materials. That is why a numerical benchmark program has been launched within the COST Action TU1404 aiming at improvement and harmonisation of computational prediction of early-age behaviour of cement-based materials as well as its behaviour on structural level. This paper presents the result of the proof-of-concept stage of the benchmark.The goal of this stage of benchmark was to compare the performance of currently used models for simulation of early-age behaviour of concrete. The participants were requested to simulate thermo-chemo-mechanical behaviour of simple concrete elements covering adiabatic and real evolution of temperature, shrinkage, stiffness and stresses accounting for early-age creep. The tasks were formulated based on the experimental measurements. This stage of benchmark allowed to evaluate the influence of different phenomena occurring in early-age concrete on the behaviour of early-age concrete structures, define the discrepancies between experimental results and numerical simulations, as well as to indicate the weak points in the models.

U2 - 10.1016/j.conbuildmat.2018.04.088

DO - 10.1016/j.conbuildmat.2018.04.088

M3 - Article

SN - 1879-0526

VL - 174

SP - 173

EP - 189

JO - Construction and Building Materials

JF - Construction and Building Materials

ER -

COST TU1404 benchmark on macroscopic modelling of concrete and concrete structures at early age: Proof-of-concept stage

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