Title of article
Modelling crack propagation in reinforced concrete using a hybrid finite element–scaled boundary finite element method
Author/Authors
Ooi، نويسنده , , Ean Tat and Yang، نويسنده , , Zhen Jun، نويسنده ,
Issue Information
روزنامه با شماره پیاپی سال 2011
Pages
22
From page
252
To page
273
Abstract
A previously developed hybrid finite element–scaled boundary finite element method (FEM–SBFEM) is extended to model multiple cohesive crack propagation in reinforced concrete. This hybrid method can efficiently extract accurate stress intensity factors from the semi-analytical solutions of SBFEM and is also flexible in remeshing multiple cracks. Crack propagation in the concrete bulk is modelled by automatically inserted cohesive interface elements with nonlinear softening laws. The concrete–reinforcement interaction is also modelled by cohesive interface elements. The bond shear stress–slip relation of CEB-FIP Model Code 90 and an empirical confining stress–crack opening relation are used to characterise slip and split failure at the concrete–reinforcement interface, respectively. Three RC beams were simulated. The numerical results agreed well with both experimental and numerical results available in the literature. Parametric studies demonstrated the importance of modelling both slip and split failure mechanisms at the concrete–reinforcement interface.
Keywords
scaled boundary finite element method , Reinforced concrete , Cohesive interface elements , remeshing , Multiple crack propagation
Journal title
ENGINEERING FRACTURE MECHANICS
Serial Year
2011
Journal title
ENGINEERING FRACTURE MECHANICS
Record number
2343315
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