Analysis of the Versatility of Multi-Linear Softening Functions Applied in the Simulation of Fracture Behaviour of Fibre-Reinforced Cementitious Materials

Analysis of the Versatility of Multi-Linear Softening Functions Applied in the Simulation of Fracture Behaviour of Fibre-Reinforced Cementitious Materials

Fibre-reinforced cementitious materials (FRC) have become an attractive alternative for structural applications. Among such FRC, steel- and polyolefin fibre-reinforced concrete and glass fibre-reinforced concrete are the most used ones. However, in order to exploit the properties of such materials,...

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Veröffentlicht in:Materials 2019-11, Vol.12 (22), p.3656
Hauptverfasser: Enfedaque, Alejandro, Alberti, Marcos G, Gálvez, Jaime C
Format: Artikel
Sprache:eng
Schlagworte:
Cement reinforcements
Concrete
Constitutive relationships
Cracks
Ductility
Economic impact
Fiber reinforced concretes
Fiber reinforced polymers
Finite element analysis
Glass fiber reinforced plastics
Laboratories
Mechanical properties
Polyolefins
Reinforced concrete
Reinforcing steels
Robustness (mathematics)
Shear strength
Softening
Tensile strength
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Beschreibung
Zusammenfassung:Fibre-reinforced cementitious materials (FRC) have become an attractive alternative for structural applications. Among such FRC, steel- and polyolefin fibre-reinforced concrete and glass fibre-reinforced concrete are the most used ones. However, in order to exploit the properties of such materials, structural designers need constitutive relations that accurately reproduce FRC fracture behaviour. This contribution analyses the suitability of multilinear softening functions combined with a cohesive crack approach for reproducing the fracture behaviour of the FRC mentioned earlier. The performed implementation accurately simulated fracture behaviour, while being versatile, robust, and efficient from a numerical point-of-view.
ISSN:1996-1944
1996-1944
DOI:10.3390/ma12223656