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Τίτλος: Accurate and computationally efficient nonlinear static and dynamic analysis of reinforced concrete structures considering damage factors
Συγγραφείς: Mourlas, Christos 
Markou, George 
Papadrakakis, Manolis 
Major Field of Science: Engineering and Technology
Field Category: Computer and Information Sciences;ENGINEERING AND TECHNOLOGY;Civil Engineering
Λέξεις-κλειδιά: Nonlinear dynamic analysis;Reinforced concrete;Finite element method;3D detailed modeling;Damage factors
Ημερομηνία Έκδοσης: 1-Ιαν-2019
Πηγή: Engineering Structures, 2019, vol.178, pp. 258-285
Volume: 178
Start page: 258
End page: 285
Περιοδικό: Engineering Structures 
Περίληψη: Accurate nonlinear dynamic analysis of reinforced concrete structures is necessary for estimating the behavior of concrete structures during an earthquake. A realistic modeling approach to assess their strength and their ability to carry the expected seismic forces is of great importance. Although a number of constitutive models and modeling approaches have been proposed in order to capture the behavior of reinforced concrete structures under static loading conditions, only a few of these numerical models have been extended to dynamic problems. The objective of this paper is to integrate a computationally efficient 3D detailed modelling of concrete structures with damage factors that take into account the opening and closing of cracks, as well as, damage factors for steel reinforcement considering the surrounding concrete damage level, in order to capture the level of damage and stiffness degradation of structures undergoing many loading cycles. In the adopted numerical model, the concrete domain is discretized with 8-noded isoparametric hexahedral finite elements, which treat cracking with the smeared crack approach, while the steel reinforcement is modeled as embedded beam elements inside the hexahedral mesh. The validity of the proposed method is demonstrated by comparing the numerical response with the corresponding experimental results of various reinforced concrete structural members and structures. Based on the numerical investigation, it was found that the proposed integration of the damage factors with computationally efficient concrete and steel material models can efficiently predict both static and dynamic nonlinear behavior of concrete structures, with the ability to capture the complicated phenomenon of the pinching effect.
URI: https://hdl.handle.net/20.500.14279/33078
ISSN: 01410296
DOI: 10.1016/j.engstruct.2018.10.034
Type: Article
Affiliation: University of Pretoria 
National Technical University Of Athens 
Publication Type: Peer Reviewed
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