2013
DOI: 10.1590/s1679-78252013000600003
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Static and dynamic analysis of reinforced concrete shells

Abstract: The objective of this work is to provide a reliable numerical model using the finite element method (FEM) for the static and dynamic analysis of reinforced concrete (RC) shells. For this purpose two independently computer programs based on plasticity and viscoplasticity theories are developed. The well known degenerated shell element is used for the static analysis up to failure load, while 3D brick elements are used for the dynamic application. The implicit Newmark scheme with predictor and corrector phases i… Show more

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Cited by 10 publications
(8 citation statements)
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“…The equilibrium Equation (9), geometric relationships (10), material models for reinforcing steel (1) and concrete (8), and the cross-sectional model defined by Equations (11) and (12) form the problem within the technical theory of bar structures.…”
Section: Differential Discretization Of the Bar Elementmentioning
confidence: 99%
See 1 more Smart Citation
“…The equilibrium Equation (9), geometric relationships (10), material models for reinforcing steel (1) and concrete (8), and the cross-sectional model defined by Equations (11) and (12) form the problem within the technical theory of bar structures.…”
Section: Differential Discretization Of the Bar Elementmentioning
confidence: 99%
“…The non-linear analysis of the shear failure mechanism of reinforced concrete beams was presented in [10,11]. The nonlinear analysis carried out a using numerical algorithm for the reinforced concrete shells under static and dynamic loading were presented in [12]. The numerical analysis including material and geometrical nonlinearity with the influence of shear strength complementary mechanism for the reinforced concrete beams and frame were presented in [13].…”
Section: Introductionmentioning
confidence: 99%
“…The FE element presents five degrees of freedom at each node (three displacement and two rotations). The reinforcing mesh can be represented by an equivalent smeared layer within the element (Tamayo et al, 2013). A typical finite element is shown in Figure 3…”
Section: Concrete Slabmentioning
confidence: 99%
“…In Figure 1 is illustrated a typical portion of a steel-concrete composite beam as modeled in VIMIS (e.g. Tamayo et al 2013, Tamayo and Awruch, 2016, Moscoso et al 2017, Dias et al 2015. In this manner, the contribution of the present work can be summarized as follow: 1) Verification of Macorini et al's results with the present FE model in view of the lack of more results about the variation of the effective width along time; 2) Comparison of computed FE effective width ratios with some regulations (e.g.…”
Section: Introductionmentioning
confidence: 99%
“…Hence, a general three-dimensional numerical model is coded by using the Fortran programming language. The inelastic behavior of the soil mass, soil-pile interface and concrete piles (Tamayo et al, 2013) can be included in the present numerical model. Nevertheless, for the validation examples presented in this work, the influence of slipping at the soil-pile interface in the global response of the soil-pile system was found to be negligible and this effect can be omitted with safety.…”
Section: Latin American Journal Of Solids and Structures 13 (2016) 15mentioning
confidence: 99%