Please use this identifier to cite or link to this item: https://hdl.handle.net/20.500.14279/33030
Title: Computationally efficient 3D finite element modeling of RC structures
Authors: Markou, George 
Papadrakakis, Manolis 
Major Field of Science: Social Sciences
Field Category: Computer and Information Sciences;ENGINEERING AND TECHNOLOGY;Civil Engineering
Keywords: Reinforced concrete;Smeared crack;Embedded reinforcement;Natural beam-column element;Flexibility element
Issue Date: Oct-2013
Source: Computers and Concrete, 2013, vol.12 no.4 pp. 443-498
Volume: 12
Issue: 4
Start page: 443
End page: 498
Journal: Computers and Concrete 
Abstract: A detailed finite element modeling is presented for the simulation of the nonlinear behavior of reinforced concrete structures which manages to predict the nonlinear behavior of four different experimental setups with computational efficiency, robustness and accuracy. The proposed modeling method uses 8-node hexahedral isoparametric elements for the discretization of concrete. Steel rebars may have any orientation inside the solid concrete elements allowing the simulation of longitudinal as well as transverse reinforcement. Concrete cracking is treated with the smeared crack approach, while steel reinforcement is modeled with the natural beam-column flexibility-based element that takes into consideration shear and bending stiffness. The performance of the proposed modeling is demonstrated by comparing the numerical predictions with existing experimental and numerical results in the literature as well as with those of a commercial code. The results show that the proposed refined simulation predicts accurately the nonlinear inelastic behavior of reinforced concrete structures achieving numerical robustness and computational efficiency. © 2013 Techno-Press, Ltd.
URI: https://hdl.handle.net/20.500.14279/33030
ISSN: 1598-8198
DOI: 10.12989/cac.2013.12.4.443
Type: Article
Affiliation : ALHOSN University 
Publication Type: Peer Reviewed
Appears in Collections:Άρθρα/Articles

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