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Three dimensional simulations of FRC beams and panels with explicit definition of fibres-concrete interaction
Gdańsk University of Technology, Poland.
RISE Research Institutes of Sweden, Built Environment, Infrastructure and concrete technology.ORCID iD: 0000-0003-1358-2364
Gdańsk University of Technology, Poland.
2024 (English)In: Engineering structures, ISSN 0141-0296, E-ISSN 1873-7323, Vol. 319, article id 118856Article in journal (Refereed) Published
Abstract [en]

High performance concrete (HPC) is a quite novel material which has been rapidly developed in the last few decades. It exhibits superior mechanical properties and durability comparing to normal concrete. HPC can achieve also superior tensile performance if strong fibres (steel or carbon) are implemented in the matrix. Thus, there exist the unabated interest in studying how the addition of different types of fibres modifies the behaviour of HPC. Nowadays, a standard numerical approaches to model the behaviour of fibre reinforced concrete (FRC) are carried out by means of the smeared or discrete crack modelling of homogenous media with appropriately changed stress-strain relationships. The objective of this paper is to develop a new and efficient mesoscale modelling approach for steel fibre reinforced high-performance concrete. The main idea of presented approach is to assume the fully 3D modelling with taking into account explicitly the distribution and orientation of the steel fibres. As a benchmark, results obtained from experimental campaign on beams and panels made from high-performance concrete with steel fibres of different sizes and dosages were taken. Results of numerical simulations were directly compared with experimental outcomes in order to validate and calibrate FE-model and to introduce the efficient numerical modelling tool.

Place, publisher, year, edition, pages
Elsevier Ltd , 2024. Vol. 319, article id 118856
Keywords [en]
Benchmarking; Concrete beams and girders; Crack propagation; Digital elevation model; Fiber reinforced plastics; Steel fibers; Stress-strain curves; Tensile strength; Cracks propagation; Element method; Fiber reinforced concrete; Fiber-reinforced concrete beams; Fiber-reinforced concretes; Finite element method; High performance concrete; High-performance concrete; Reinforced concrete panels; Three dimensional simulations; Fiber reinforced concrete
National Category
Civil Engineering
Identifiers
URN: urn:nbn:se:ri:diva-75042DOI: 10.1016/j.engstruct.2024.118856Scopus ID: 2-s2.0-85202746853OAI: oai:DiVA.org:ri-75042DiVA, id: diva2:1895685
Note

The experimental part of the research presented in this paper has been financed by the Swedish Energy Agency (Energimyndigheten) within the project WECHull “Sustainable and reliable materials leading to improved WEC hulls” grant number 51690-1 in period 2021–2023.

Available from: 2024-09-06 Created: 2024-09-06 Last updated: 2024-09-06Bibliographically approved

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Suchorzewski, Jan

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