A 3D finite element model for reinforced concrete structures analysis

Bono, Giuliana Furtado Franca; Filho, Américo Campos; Pacheco, Alexandre Rodrigues

doi:10.1590/s1983-41952011000400002

Cited by 7 publications

(6 citation statements)

References 17 publications

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“…Babu et al (2005), in a review on concrete constitutive modelling, describe the generalized use of the Ottosen failure criterion in practice. The failure surface corresponding to this criterion is given by the following equation (Bono et al, 2011):…”

Section: Safety Assessment Of Lining Systemsmentioning

confidence: 99%

“…3D moment-thrust interaction diagram with an external point projected inside the 2D diagrams.where r 1 , r 2 , r 3 are respectively the major, intermediate and minor principal stresses.Therefore the Ottosen failure criterion requires the determination of five constitutive parameters for the concrete, namely: f c , a, b, c 1 , c 2 Bono et al (2011). also describe correlations recommended by the CEB-FIP model code from 1990 for these parameters based on the ratio between the tensile and compressive uniaxial strengths (k).…”

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confidence: 99%

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Large diameter shafts for underground infrastructure

Dias

Farias

Assis

2015

Tunnelling and Underground Space Technology

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Section: Safety Assessment Of Lining Systemsmentioning

confidence: 99%

mentioning

confidence: 99%

Large diameter shafts for underground infrastructure

Dias

Farias

Assis

2015

Tunnelling and Underground Space Technology

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“…The second problem is related to the famous work of Bresler and Scordelis [13], who tested many reinforced concrete beams with different cross-sections and for many kinds of reinforcements. Many models were developed [14], [15], [16] aiming to reproduce the experimental results of Bresler and Scordelis [13].…”

Section: Introductionmentioning

confidence: 99%

Damage and plasticity evolution of reinforced concrete beams using laminated Euler-Bernoulli finite elements

Imai

Abeche

Machado

2023

Rev. IBRACON Estrut. Mater.

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This paper analyses the behaviour of reinforced concrete beams subjected to progressive loads. Although this topic is addressed in recent works through tri-dimensional finite elements, the present study adopts a simpler alternative, using Euler-Bernoulli’s beam finite element. The evolution of the generalized cracking is addressed by Damage Mechanics theory, and the nonlinear constitutive models of concrete and steel are considered, including plasticity and post-peak ‘. The laminated approach permits not only to ascertain the damage evolution but, in practical aspects, makes easy to define vertically symmetrical transversal sections and to distribute the reinforcement as desired, even if the steel rebars have different lengths. It is highlighted the changing of the neutral axis during the damage evolution process, which is updated automatically by the developed numeric-computational code. To validate the proposed methodology, two examples are detailed, both based on experimental tests found in the literature. The results obtained are close to the experimental ones and confirm the applicability of the proposed approach.

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“…In general, the short columns of hill buildings attract more forces and undergo extensive damage if it is not properly designed for earthquake forces. The using of 3D finite element models to investigate the behaviour reinforced concrete and steel structures have been the subject of many studies in the last years [11][12][13][14]. The finite element analysis of reinforced concrete (RC) structures under different conditions can be a powerful tool for predicting their behaviour in order to evaluate the safety levels of design.…”

Section: Introduction and Related Workmentioning

confidence: 99%

Multiple Linear Regression Modelling for Predicting Building’s Short Columns Loads under Gravity

Abdulwahid¹,

Haddad²,

Tubaila³

et al. 2020

International Journal of Engineering Research and Technology

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This research is an attempt to understand and model the performance of short columns under different ground levels and storey number. This behaviour includes varying axial forced, shear forces, and bending moments under gravity loads. All the results have been taken for the columns at the ground level when the phenomenon of the short column has appeared. To study the performance of short columns under different ground levels and the number of stories, the 3D finite element by sap2000, and multiple linear regression analysis have been used in this study. The results show that the axial force for all types of short columns (internal, edge, corner) increases as the number of stories in the building increases at the same ground level. The effect of changing the number of floors with the same value of ground level is not significant in shear and moment for all types of columns except for the one-story and two-storey buildings. For more illustration, the moment and shear for a building composed of one story is very high compared to the two-storey building where the value becomes significantly low; then become higher again with a 3-storey building and with more stories.

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A 3D finite element model for reinforced concrete structures analysis

Cited by 7 publications

References 17 publications

Large diameter shafts for underground infrastructure

Large diameter shafts for underground infrastructure

Damage and plasticity evolution of reinforced concrete beams using laminated Euler-Bernoulli finite elements

Multiple Linear Regression Modelling for Predicting Building’s Short Columns Loads under Gravity

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