
Finite Element Modeling of Strengthened Beams Using CFRP
Author(s) -
Sabiha Barour,
Abdesselam Zergua
Publication year - 2019
Publication title -
journal of building materials and structures
Language(s) - English
Resource type - Journals
eISSN - 2600-6936
pISSN - 2353-0057
DOI - 10.34118/jbms.v6i2.70
Subject(s) - finite element method , structural engineering , materials science , fibre reinforced plastic , deflection (physics) , composite number , load bearing , bearing capacity , context (archaeology) , nonlinear system , composite material , bending , carbon fiber reinforced polymer , engineering , paleontology , physics , optics , quantum mechanics , biology
Deteriorating and damage of some structural elements influence negatively their strength and the bearing capacity. However, it is necessary to take some measures improve structural performance. In this context, the composite material is often used to strengthen the damaged parts. This paper presents a model to analyze the effect of carbon fiber reinforced polymer strengthening of beams under four point bending. Finite element software ANSYS 12.0 has been used for modeling the beams by conducting nonlinear static analysis. The SOLID 65 and SHELL 181 elements have been used to, respectively; model the 3D concrete beams and the composite layer. Constitutive properties of different components (concrete and FRP) have been incorporated. The predicted Finite element analysis results for the load-midspan deflection are compared to the measured experimental data. Close agreement was found between the predicted and measured results at all stages of loading for both models developed.