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Two-dimensional integrated mixed-mode smeared crack model for simulating FRC structures

Title
Two-dimensional integrated mixed-mode smeared crack model for simulating FRC structures
Type
Article in International Scientific Journal
Year
2023
Authors
Matos, LMP
(Author)
Other
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Barros, JAO
(Author)
Other
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Ventura Gouveia, A
(Author)
Other
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Journal
Vol. 289
ISSN: 0013-7944
Publisher: Elsevier
Other information
Authenticus ID: P-00Y-QQT
Abstract (EN): This paper describes the implementation and assessment of the predictive performance of a two dimensional mixed-mode fracture smeared crack model (MMFSCM) in a finite element method (FEM) based software. The referred constitutive model is based on the integration of the aggregate interlock and fibre pullout resisting mechanisms to simulate the behaviour of Fibre Reinforced Concrete (FRC) in both fracture mode I and II. The models used to simulate the contribution of each resisting mechanism predict the normal and shear stresses at the crack level based on the crack opening and sliding displacements. For this purpose, two aggregate interlock models and three fibre pullout models are used. The appraisal of this approach is conducted by simulating two numerical case studies consisting of a three-point notched beam bending test (3PNBBT) for assessing the structural behaviour in mode I, and shear panel tests to appraise the predictive performance of the model in mode II. In addition, modifications to the original formulation of the fibre pullout models are proposed, and a multi-linear branch model is also developed and implemented in order to facilitate the use of inverse analysis tools for defining the mode I behaviour. The numerical simulations have predicted with good accuracy the experimental responses, both in mode I and mode II, capturing not only the peak loads but also the evolution trend of the post-peak responses of the analysed scenarios. The modifications proposed to the fibre pullout models enhanced the overall predictive performance of the MMFSCM. The multi-linear branch model exhibited excellent performance, capturing the experimental response with very good accuracy in all 3PNBBT simulations.
Language: English
Type (Professor's evaluation): Scientific
No. of pages: 30
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