Modelagem numérica de vigas mistas aço-concreto

Marconcin, Liliane do Rocio; Machado, Roberto Dalledone; Mariño, Marcos Antonio Maynar

doi:10.1590/s1983-41952010000400006

Cited by 4 publications

(6 citation statements)

References 6 publications

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“…The interaction between the concrete elements and steel sections used in composite steel-concrete systems can be achieved by mechanical means (connectors, cavities, rebounds), by both friction and adhesion [4]. Although the natural adhesion between the two materials generates remarkably high friction forces, these are not usually considered when calculating the resistant capacity of some elements, such as composite beams [5].…”

Section: Introducionmentioning

confidence: 99%

“…The composite beams, in particular, are constituted by the association of a steel section located in a predominantly traction region with a concrete slab located in a prevalently compressed region. The mechanical connection among the materials is made by steel devices called shear connectors [4] whose main functions are: to allow the slab-beam elements to work together [3], to restrict longitudinal slipping and vertical displacement at the interface elements, in addition to absorbing shear forces [6].…”

Section: Introducionmentioning

confidence: 99%

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Experimental analysis of the structural behavior of different types of shear connectors in steel-concrete composite beams

Neto

Vieira

Zoccoli³

2020

Rev. IBRACON Estrut. Mater.

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The present work aims to compare the structural behavior of steel-concrete composite-section beams for three types of shear connectors made of U hot rolled section and cold-formed sections of U and L. Experimental tests were performed with the three types of connectors associated with I section laminated steel beams and reinforced concrete slabs. For each type of connector, three push-out tests were performed, as well as six simple supported beam tests to evaluate the positive bending moment region. The results indicated that the direct shear behavior among the different types of connectors presents significant differences, however they do not significantly influence the average flexural strength of the composite beams. These, however, present considerable differences in deflections and deformations due to the stiffness differences of the connectors.

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Section: Introducionmentioning

confidence: 99%

Section: Introducionmentioning

confidence: 99%

Experimental analysis of the structural behavior of different types of shear connectors in steel-concrete composite beams

Neto

Vieira

Zoccoli³

2020

Rev. IBRACON Estrut. Mater.

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“…Between the 1960s and the 1970s, several experimental studies were carried out [9]- [11]. More recently, studies using the finite element method for the numerical analysis of these beams have been multiplied, with the construction of models that contemplate the partial interaction [1], [8], [12]- [16].…”

Section: Introductionmentioning

confidence: 99%

“…Tamayo et al [13], Tamayo [14] and Dias [15] developed a computational code at CEMACOM/UFRGS for the analysis of composite beams, considering a three-dimensional finite element model in which the concrete slab was modeled by 8-node degenerated shell elements, the shear connectors by bar elements with penalties and the steel profile by shell elements. ANSYS software was employed by Kotinda [1] and by Marconcin et al [16], with the steel profile being modeled by shell elements (named SHELL43), the concrete slab by hexahedral elements (SOLID65), the shear connectors by bar elements (BEAM189), and using pairs of contact elements (TARGE170 and CONTA173) at the interface between steel and concrete. Queiroz et al [8] also used ANSYS and modeled the steel profile by shell elements (SHELL43), the concrete slab by hexahedral elements (SOLID65) and the connectors by non-linear spring elements (COMBIN39).…”

Section: Introductionmentioning

confidence: 99%

Numerical simulation of steel-concrete composite beams: updated strategies of finite element modeling

Benincá

Schmitz

Morsch

2020

Rev. IBRACON Estrut. Mater.

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The use of steel-concrete composite beams allows the best properties of these materials to be explored, resulting in more economical solutions. Many researchers have studied the behavior of composite beams from different strategies of numerical modeling, and some of these are presented in this article. In this context, the present work proposes the construction of a tridimensional numerical model using ANSYS software, version 19.2, with current-technology elements and compatible material models. For the simulation of concrete behavior, two models have been used: the first, denominated DP-CONCRETE, is a native ANSYS model, available in the more recent versions of this software; and the second, denominated USERMAT, is a customizable model that was developed based on Ottosen criterion. The results obtained with these models for the analyzed beams presented a good correlation with the experimental results and with numerical results from previous works.

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“…Therefore, advances in numerical simulation are essential for a better understanding of the structural behavior of composite alveolar beams and can be helpful for the validation and improvement of future standardizations. In the last decades, several researchers have developed finite element models for the analysis of composite beams (Gattesco, 1999;Queiroz et al, 2007;Marconcin et al, 2010;Tamayo et al, 2015;Dias et al, 2015;Liu et al, 2017;Katwal et al, 2018), alveolar steel beams (Ellobody, 2012;Durif et al, 2013;Erdal and Saka, 2013;Vieira, 2015;Wang et al, 2016;Oliveira et al, 2019;Shamass and Guarracino, 2020) and composite alveolar beams (Megharief, 1997;Müller et al, 2006;Gizejowski and Salah, 2008;Bake, 2010;Ferrari, 2013;Lawson et al, 2018). Since the approached numerical problem presents many nonlinearities, both physical (materials behavior) and geometric (profile buckling), different modeling strategies have been used, employing several commercial and authorial software products, with varying degrees of simplification.…”

Section: Introductionmentioning

confidence: 99%

Numerical simulation of composite steel-concrete alveolar beams: web-post buckling, Vierendeel and flexural mechanisms

Benincá

Morsch

2020

Lat. Am. j. solids struct.

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Composite alveolar beams consist in the union of two structural systems largely employed in civil construction sector: the steel-concrete composite beams and the alveolar steel beams. Thus, its use allows their advantages to be enhanced, enabling to design even larger spans and to achieve more economical and sustainable solutions. Considering that Brazilian and international standards do not directly specify criteria for the analysis and design of these beams, in this paper it is presented the development and validation of an updated finite element model, using ANSYS software, capable of simulating different failure modes that may occur, such as web-post buckling, Vierendeel mechanism and flexural mechanism. The obtained results presented a good correlation with experimental results from previous works. After the model validation, the effect of the openings on the composite beam was investigated and discussed, and it was concluded that the web-post buckling may limit the structural gains on load capacity, so it is important to adopt opening patterns that enhance the resistance of the beam to this mode of failure.

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Modelagem numérica de vigas mistas aço-concreto

Cited by 4 publications

References 6 publications

Experimental analysis of the structural behavior of different types of shear connectors in steel-concrete composite beams

Experimental analysis of the structural behavior of different types of shear connectors in steel-concrete composite beams

Numerical simulation of steel-concrete composite beams: updated strategies of finite element modeling

Numerical simulation of composite steel-concrete alveolar beams: web-post buckling, Vierendeel and flexural mechanisms

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