Finite element analysis and simple design calculation method for rectangular CFSTs under local bearing forces

Yang, Y., Wen, Z., Dai, Xianghe

26 May 2016

No / Rectangular concrete-filled steel tube (CFST) may be subjected to local bearing forces transmitted from brace members while being used as a chord of a truss, and thus development of finite element analysis (FEA) and simple design calculation method for rectangular CFSTs under local bearing forces are very important to ensure the safety and reliable design of such a truss with rectangular CFST chords in engineering practices. A three-dimensional FEA model was developed using ABAQUS software package to predict the performance of thin-walled rectangular CFST under local bearing forces. The preciseness of the predicted results was evaluated by comparison with experimental results reported in the available literature. The comparison and analysis show that the predicted failure pattern, load versus deformation curves and bearing capacity of rectangular CFST under local bearing forces obtained from FEA modelling were generally in good agreement with the experimental observations. After the validation, the FEA model was adopted for the mechanism analysis of typical rectangular CFSTs under local bearing forces. Finally, based on the parametric analysis, simple design equations were proposed to be used to calculate the bearing capacity of rectangular CFST under local bearing forces. / National Natural Science Foundation of China (51421064) and the Natural Science Foundation of Liaoning Province (2013020125). The financial support is gratefully acknowledged.

Computational and Experimental Study on the Behavior of Diaphragms in Steel Buildings

Wei, Gengrui

03 February 2022

The lateral force resisting system (LFRS) of a steel building consist of two parts, i.e., a vertical LFRS such as braced frames or shear walls, and a horizontal LFRS with diaphragms playing a crucial role. There are various types of floor and roof diaphragms in steel buildings, such as concrete-filled steel deck diaphragms for the floor system and bare steel deck diaphragms for the roof system of a typical steel braced frame building, and standing seam roof diaphragms for a typical metal building. Compared to vertical elements of a building's LFRS, our understanding of the horizontal elements, i.e., the diaphragms, is grossly lacking. The motivation for this work comes from the gaps identified in the research, including the lack of generally adopted acceptance criteria and modeling protocols for seismic performance-based design of bare steel deck and concrete-filled steel deck diaphragms through linear and nonlinear analysis, the need to better understand the complex behavior of concrete-filled steel deck diaphragms with irregular configurations such as reentrant corners and openings under lateral loading, the absence of appropriate Rs values for the alternative diaphragm seismic design approach in the current building code that considers diaphragm inelasticity, and the demand for understanding the in-plane behavior of a standing seam roof system and its use in lateral bracing of rafters in metal buildings. A series of computational and experimental studies were conducted to investigate the behavior of diaphragms in buildings systems, including: 1) development of acceptance criteria and modeling protocol for performance-based seismic design of bare and concrete-filled steel deck diaphragms using a database of existing cantilever diaphragm tests; 2) a computational study on the nonlinear behavior of diaphragms with irregular configurations under lateral loading using high-fidelity finite element models validated against experiment test results; 3) investigation of the seismic behavior and performance of steel buildings with buckling restrained braced frames that considers different diaphragm design approaches and diaphragm inelasticity using nonlinear three-dimensional (3D) computational models; and 4) an experimental study that investigated the in-plane behavior of full-scale standing seam roof assemblies and their use in lateral bracing of rafters in metal building systems. The results of these studies contribute to a better understanding of the behavior of diaphragms in steel buildings and lead to several recommendations for diaphragm design. Firstly, a series of m-factors (ductility measures) and nonlinear modeling parameters (multi-linear cyclic backbone curves) were determined for bare steel deck diaphragms and concrete-filled steel deck diaphragms. These new provisions are recommended for adoption in ASCE 41 / AISC 342, which allows the use of ductility in steel deck diaphragms for their design and retrofits. Secondly, results of the finite element analysis on concrete-filled steel deck diaphragms revealed a concentrated distribution of shear transfer through the shear connections on the collectors of the diaphragm near braced frames and a stress concentration in the composite slab near reentrant corners and openings. Thirdly, results of eigenvalue analyses with nonlinear 3D building models showed that the consideration of diaphragm flexibility led to an increase in first mode period between 13% and 48%. A comparison of results from pushover analyses and response history analyses indicated that even though the pushover analyses (based on a first mode load pattern) identified the BRBF as being weaker than the diaphragms and therefore dominating the inelastic pushover behavior, response history analyses demonstrated that the diaphragms can experience substantial inelasticity during a dynamic response. The response history results also suggest that there would be a significant difference in seismic behavior of buildings modeled as two-dimensional (2D) planar frames as compared to the 3D structures modeled herein. Furthermore, the observed final collapse mode involves an interaction between large BRBF story drifts combined with diaphragm deformations that are additive and exacerbate second order effects leading to collapse. The computed adjusted collapse margin ratios for all buildings satisfied the FEMA P695 criteria for acceptance. Therefore, it is concluded that the alternative diaphragm design procedure with the proposed Rs values (Rs = 2 for concrete-filled steel deck diaphragm and Rs = 2.5 for bare steel deck diaphragm) are reasonable for use in design of these types of structures. Lastly, the effects of different standing seam roof configurations (panel type, clip type, thermal insulation, and purlin spacing) on the in-plane stiffness and strength of the standing seam roof system were investigated through an experimental testing program, and a method was described to use these experimental results in the calculations of required bracing for metal building rafters. / Doctor of Philosophy / A diaphragm is a horizontal structural component (e.g. floors and roof) that transfers lateral forces induced by wind or earthquakes to the vertical portions (e.g. frames and walls) of the lateral force resisting system (LFRS) of the building. There are various types of floor and roof diaphragms in steel buildings, such as concrete-filled steel deck diaphragms for the floor system and bare steel deck diaphragms for the roof system of a typical steel braced frame building, and standing seam roof diaphragms for a typical metal building. Compared to vertical elements of a building's LFRS, our understanding of the horizontal elements, i.e., the diaphragms, is grossly lacking. To address the research gaps in understanding the behavior of diaphragms and utilizing them in building design, this work presents a series of computational and experimental studies. In the first study, past experimental test data were analyzed to develop acceptance criteria and modeling protocol for performance-based seismic design of steel deck diaphragms. In the second study, finite element analyses were conducted to understand the nonlinear behavior of concrete-filled steel deck diaphragms subjected to in-plane lateral loading. In the third study, nonlinear three-dimensional computational building models were developed to investigate the seismic behavior and performance of steel buildings with different diaphragm design approaches and diaphragm inelasticity. In the fourth study, experimental testing on full-scale standing seam roof assemblies was conducted to investigate their in-plane behavior and their use in lateral bracing of rafters in metal building systems. The results of these studies contribute to a better understanding of the behavior of diaphragms in steel buildings and lead to several recommendations for diaphragm design.

Bare Steel Deck Diaphragms

Concrete-filled Steel Deck Diaphragms

Standing Seam Roof Diaphragms

Finite element method

Diaphragm Design Procedures

Innovative Self-Centering Connection for CCFT Composite Columns

Gao, Yu

27 January 2016

Concrete filled steel tubes are regarded as ideal frame members in seismic resisting systems, as they combine large axial and flexural capacity with ductility. The combination of the two materials increases the strength of the confined concrete and avoids premature local buckling of the steel tube. These benefits are more prominent for circular than for rectangular concrete filled steel tubes. However, most common connection configurations for circular concrete filled tubes are not economic in the US market due to (a) the desire of designers to use only fully restrained connections and its associated (b) high cost of fabrication and field welding. Research indicates that well designed partially restrained connections can supply equal or even better cyclic behavior. Partially restrained connections also possess potential capability to develop self-centering system, which has many merits in seismic design. The goal of this research is to develop a new connection configuration between circular concrete filled steel columns and conventional W steel beams. The new connection configuration is intended to provide another option for rapid assembling on site with low erection costs. The proposed connection is based on an extended stiffened end plate that utilizes through rods. The rods are a combination of conventional steel and shape memory alloy that provide both energy dissipation and self-centering capacity. The new connection configuration should be workable for large beam sizes and can be easily expanded to a biaxial bending moment connection. / Ph. D.

Earthquake Engineering

Seismic Design

Partially Restrained Connection

Self-centering System

Shape Memory Alloy

Circular Concrete Filled Steel Tube

Estudo da aderência aço-concreto em pilares mistos preenchidos / Study of bond on concrete-filled steel tubes

Silva, Romulo Dinalli da

10 March 2006

Este trabalho aborda o estudo da aderência aço-concreto em pilares mistos preenchidos através de revisão bibliográfica e de investigação experimental. De modo esquemático, a aderência é dividida em três parcelas: adesão, aderência mecânica e atrito, que em conjunto compõem a aderência natural. Adicionalmente, podem ser empregados conectores de cisalhamento, que são dispositivos mecânicos fixados nas superfícies internas dos tubos, como meio de ampliar a resistência ao escorregamento. Foram realizados ensaios do tipo pushout em alguns tipos de modelos de pilar preenchido: modelos simples, com adição de conectores tipo pino com cabeça, com cantoneiras na interface aço-concreto e semelhantes aos anteriores mais elementos de ligação. Com os resultados obtidos traçaram-se comportamentos força x escorregamento do concreto, força x deformações axiais nos materiais e curvas de distribuição de força ao longo do comprimento dos modelos. Concluiu-se que conectores tipo pino com cabeça e cantoneiras são uma excelente alternativa como dispositivos auxiliares na transferência de tensões de cisalhamento na interface aço-concreto. Entretanto, é necessário garantir resistência à ligação para que esses mecanismos sejam mobilizados / This research presents a study of influence of bond on concrete-filled steel tubes by means of a bibliography review and an experimental investigation. The bond strength counts on three mechanisms: adhesion of the concrete to the steel surface, friction and wedging of the concrete core. In order to improve the shear resistance of the steel-concrete interface, shear connectors can be used. A series of push-out tests of rectangular concrete-filled steel tubes was conducted in the specimens without mechanical shear connectors, specimens with stud bolt shear connectors and specimens with angles. They were also tested the corresponding beam-column connections. The results are shown in curves force x slip of concrete, force x axial strain of materials and distribution of axial load to the steel and to the concrete. The results of the tests permitted identify the mechanisms of natural bond and indicated that the stud bolts and the angles are excellent alternatives as auxiliary mechanisms to transfer shear between the concrete and steel in the concrete filled composite column. However, it is necessary to guarantee the connection enough strength in order to permit these resistance be developed

aderência

bond

cisalhamento

composite construction

concrete filled steel tubes

escorregamento

estrutura mista

investigação experimental

pilares mistos preenchidos

pushout tests

shear forces

slip

Estudo teórico-experimental de pilares mistos compostos por tubos de aço preenchidos com concreto de alta resistência. / Theoretical and experimental study of high strength concrete filled steel tubes

De Nardin, Silvana

25 March 1999

O emprego de pilares mistos formados por tubos de aço preenchidos com concreto de alta resistência, sobretudo em edifícios altos, é uma tendência em diversos países europeus, americanos e asiáticos. A tais elementos são atribuídas vantagens como: alta resistência e ductilidade, economia de materiais e mão-de-obra, redução das dimensões da seção transversal e melhoria no comportamento dos materiais aço e concreto, devido ao efeito de confinamento. Buscando suprir algumas carências de conhecimento, procura-se obter dados experimentais sobre o comportamento de pilares mistos axialmente comprimidos, possibilitando desta forma avaliar parâmetros como influência da forma da seção transversal e da espessura do perfil tubular no seu comportamento. Foram analisadas seções quadradas, circulares e retangulares, preenchidas por concreto com resistência média de 50MPa. A ruína destes elementos caracterizou-se pelo esmagamento do concreto, ocorrendo posteriormente a flambagem local do perfil em diversos pontos. A capacidade resistente prevista por diversas normas resultou em valores muito próximos dos experimentais, embora várias destas normas não considerem o efeito de confinamento. Os ensaios mostraram que o efeito de confinamento contribui de forma decisiva na melhoria do comportamento dos materiais, sobretudo ductilizando o concreto de alta resistência, entretanto seus efeitos não são significativos no aumento da capacidade resistente da seção mista. Alguns critérios para avaliação da ductilidade à compressão foram adaptados e mostraram bons resultados, possibilitando o cálculo do índice de ductilidade. / The use of concrete filled steel tubes especially in tall buildings is a tendency in several european, american and asian countries. The use of these members has several advantages: high resistance and ductility, saving of materials and labour, reduction of cross section dimensions and improvement in behaviour of the materials steel and concrete due the confinement. The main purpose of this study is provide some experimental results of the behaviour of concrete filled steel tubes concentrically loaded. The main experimental parameters considered were the influence of the cross-section shape and thickness of steel tube. Square, circular and rectangular cross-section shapes infilling with concrete of the 50MPa of strength were analyzed. The failure was characterized for crushing of the concrete and later local buckling of the steel section in several points. The strength capacity predicted for several standards showed good agreement with the experimental failure values although this does not consider the confinement of the concrete. The results of tests showed that the confinement effect contributes for improvement behaviour of materials, especially increasing the ductility of the high strength concrete. However the results showed that the triaxial confinement does not increase the axial capacity of the concrete filled steel tubes. Some methods to estimate the ductility of axially compressed concrete columns were adapted and showed good results permitting the calculation of the ductility index of short columns.

box columns

composite columns

concrete filled steel tubes

concreto de alta resistência

confinamento

ductilidade

ductility

estruturas mistas

high strength concrete

pilares mistos aço-concreto

pilares mistos preenchidos

tall buildings

Estudo da transferência de forças de cisalhamento na ligação entre pilares mistos preenchidos e vigas / A study on shear forces transfer of connections involving steel beams and concrete-filled steel tubular columns

Araujo, Cynthia Meilli Silva

08 September 2009

Este trabalho tem por objetivo investigar as ligações viga-pilar misto preenchido, no tocante à transferência de forças de cisalhamento na região de ligação. O estudo engloba uma investigação experimental com ensaios do tipo push-out com carregamento centrado no núcleo de concreto e uma simulação numérica no pacote computacional DIANA visando obter dados de comportamento do mecanismo de transferência de forças de cisalhamento, aplicado à região de ligação viga-pilar. Foram utilizados modelos com 800 mm de altura e seção quadrada de dimensão (200 x 200 x 6,3) mm obtida a partir da composição de dois perfis U (200 x 100 x 6,3) mm. A resistência à compressão média do concreto de preenchimento foi de 50 MPa. Ao todo, foram ensaiados 3 modelos de ligação, utilizando chapas de extremidade e barras rosqueadas como mecanismo de ligação viga-pilar. Como elementos para transferência de forças entre o tubo de aço e o núcleo de concreto foram usados conectores tipo pino com cabeça ou cantoneiras. Os resultados experimentais mostraram a eficiência das barras rosqueadas e dos conectores de cisalhamento na transferência dos esforços de cisalhamento na ligação viga-pilar e na interface perfil de aço e concreto. A simulação numérica teve concordância satisfatória com os resultados experimentais obtidos. / In the design of concrete-filled steel tubular columns, the concrete and the steel tube must work together in order to achieve the overall resistance, stiffness and stability requirements. It is important that exists an adequate mechanism to transfer the forces from the steel beam to the steel tube, and then to the concrete core. This work presents a study on shear transfer in connections involving concrete-filled steel tubular columns and steel beams. The work was divided in two parts, being the first an experimental analysis with push-out tests, and the second one a numerical simulation of the tests, using the software DIANA. The tested specimens were 800 mm height , with square section (200 x 200 x 6,3mm) obtained from two welded U-shape profiles. A concrete with compressive strength of 50 MPa was used as a filling for the columns. Altogether, three connections with steel end plates and passing bars were tested. Two types of shear connectors between steel column and concrete core were used: stud-bolts and angles, and a reference specimen without connectors was also tested. The results showed the efficiency of the shear connectors in the tranference of forces.

Análise experimental

Análise numérica

Beam-column

Cisalhamento

Composite element

Concrete-filled steel tube column

Estrutura mista

Experimental analysis

Ligação viga-pilar

Numerical analysis

Pilar misto preenchido

Shear

Estudo teórico-experimental da ligação entre pilares mistos preenchidos e vigas pré-moldadas de concreto / Experimental and theoretical study of precast concrete beam to concrete-filled steel tube column connection

Bezerra, Leonardo Melo

27 May 2011

Neste trabalho, ligações entre vigas pré-moldadas de concreto e pilares mistos preenchidos foram propostas com a finalidade de transferir momento de flexão e força cortante das vigas para os pilares mobilizando os núcleos de concreto. Foi realizado um estudo numérico-experimental das ligações onde foi avaliada a viabilidade e a eficiência destas na transferência dos esforços. Em uma primeira fase, modelos compostos por pilar misto e consolo metálico (modelos 1 e 2) foram confeccionados, testados experimentalmente e modelados numericamente (método dos elementos finitos) para avaliar a eficiência do consolo na transferência da força cortante. Observou-se que a transferência da força cortante do consolo para o tubo metálico foi eficaz. O consolo se comportou de maneira previsível e suportou cargas elevadas. O uso de conectores de cisalhamento internos aos pilares aumentou a capacidade de carga e o desempenho dos mesmos. Na etapa seguinte da pesquisa foram confeccionados dois modelos, compostos por: pilar, viga pré-moldada, laje e consolo formando pórticos. Em um destes modelos (modelo 4) uma caixa metálica foi incorporada à viga pré-moldada e parafusado ao consolo metálico com a finalidade de transferir os momentos positivos, enquanto que outro modelo foi confeccionado e estudado sem este elemento (modelo 3). Nestes modelos foi avaliada a capacidade de transferência do momento de flexão (positivo e negativo) e forças cortantes com a ligação submetida a ciclos de carga. No modelo 3, a ligação transferiu de forma eficiente o momento negativo, porém o desempenho para o momento positivo não foi satisfatório, com baixa resistência e rigidez ao longo dos ciclos de carga. No modelo 4 foi observado considerável aumento da resistência e rigidez se comparado com o modelo anterior. Entretanto, a caixa metálica incorporada à viga pré-moldada não foi capaz de fazer com que a ligação resistisse aos momentos positivos como a mesma eficiência que resistiu aos negativos e houve degradação de suas características estruturais ao longo dos ciclos de carga. / In this work, connections of precast concrete beam to concrete-filled steel tube column were proposed to transfer the bending moment and shear forces from the beam to the composite column, mobilizing the concrete core. Was performed a numerical and experimental study of the proposed connections to evaluate the feasibility and effectiveness of them in the transfer of bending and shear forces from the beam to the column. In a first stage, models composed by column and steel corbel (models 1 e 2) were numerically and experimentally tested aiming the efficiency of the connection in shear transfer. It was observed that the transfer of shear to the steel tube was guaranteed. The corbel behaved in a predictable way and supported high loads. The use of shear connectors in the column increased the load capacity and improved the connection performance. In next stage of the research work, two models were prepared, composed by: column, precast concrete beam, steel corbel and slabs constituting frames. In one of these models (model 4) a steel box was incorporated into the precast beam and bolted to the steel corbel in order to transfer the positive moments, whereas another model was built and studied without this device (model 3). In this models were evaluated the efficiency in the transfer of bending moments (positive and negative) and shear forces with the models subjected to a cyclic loads. In the model 3, the connection transferred efficiently the negative bending, but the performance for the positive bending was not satisfactory, with reduced strength and stiffness over the load cycles. In model 4 was observed considerable increase in strength and stiffness compared with the previous model. However, the device incorporated in the precast beam was unable to make the connection resist to the positive moments with the same efficiency observed when subjected to the negative moments and a degradation of their structural characteristics was observed during the loading cycles.

Concrete

Concrete-filled steel tube column

Concreto

Connections

Estruturas híbridas

Hybrid structures

Ligação

Pilar misto preenchido

Precast beam

Viga pré-moldada

Estudo teórico-experimental de pilares mistos compostos por tubos de aço preenchidos com concreto de alta resistência. / Theoretical and experimental study of high strength concrete filled steel tubes

Silvana De Nardin

25 March 1999

O emprego de pilares mistos formados por tubos de aço preenchidos com concreto de alta resistência, sobretudo em edifícios altos, é uma tendência em diversos países europeus, americanos e asiáticos. A tais elementos são atribuídas vantagens como: alta resistência e ductilidade, economia de materiais e mão-de-obra, redução das dimensões da seção transversal e melhoria no comportamento dos materiais aço e concreto, devido ao efeito de confinamento. Buscando suprir algumas carências de conhecimento, procura-se obter dados experimentais sobre o comportamento de pilares mistos axialmente comprimidos, possibilitando desta forma avaliar parâmetros como influência da forma da seção transversal e da espessura do perfil tubular no seu comportamento. Foram analisadas seções quadradas, circulares e retangulares, preenchidas por concreto com resistência média de 50MPa. A ruína destes elementos caracterizou-se pelo esmagamento do concreto, ocorrendo posteriormente a flambagem local do perfil em diversos pontos. A capacidade resistente prevista por diversas normas resultou em valores muito próximos dos experimentais, embora várias destas normas não considerem o efeito de confinamento. Os ensaios mostraram que o efeito de confinamento contribui de forma decisiva na melhoria do comportamento dos materiais, sobretudo ductilizando o concreto de alta resistência, entretanto seus efeitos não são significativos no aumento da capacidade resistente da seção mista. Alguns critérios para avaliação da ductilidade à compressão foram adaptados e mostraram bons resultados, possibilitando o cálculo do índice de ductilidade. / The use of concrete filled steel tubes especially in tall buildings is a tendency in several european, american and asian countries. The use of these members has several advantages: high resistance and ductility, saving of materials and labour, reduction of cross section dimensions and improvement in behaviour of the materials steel and concrete due the confinement. The main purpose of this study is provide some experimental results of the behaviour of concrete filled steel tubes concentrically loaded. The main experimental parameters considered were the influence of the cross-section shape and thickness of steel tube. Square, circular and rectangular cross-section shapes infilling with concrete of the 50MPa of strength were analyzed. The failure was characterized for crushing of the concrete and later local buckling of the steel section in several points. The strength capacity predicted for several standards showed good agreement with the experimental failure values although this does not consider the confinement of the concrete. The results of tests showed that the confinement effect contributes for improvement behaviour of materials, especially increasing the ductility of the high strength concrete. However the results showed that the triaxial confinement does not increase the axial capacity of the concrete filled steel tubes. Some methods to estimate the ductility of axially compressed concrete columns were adapted and showed good results permitting the calculation of the ductility index of short columns.

concreto de alta resistência

confinamento

ductilidade

estruturas mistas

pilares mistos aço-concreto

pilares mistos preenchidos

box columns

composite columns

concrete filled steel tubes

ductility

high strength concrete

tall buildings

Estudo da transferência de forças de cisalhamento na ligação entre pilares mistos preenchidos e vigas / A study on shear forces transfer of connections involving steel beams and concrete-filled steel tubular columns

Cynthia Meilli Silva Araujo

08 September 2009

Este trabalho tem por objetivo investigar as ligações viga-pilar misto preenchido, no tocante à transferência de forças de cisalhamento na região de ligação. O estudo engloba uma investigação experimental com ensaios do tipo push-out com carregamento centrado no núcleo de concreto e uma simulação numérica no pacote computacional DIANA visando obter dados de comportamento do mecanismo de transferência de forças de cisalhamento, aplicado à região de ligação viga-pilar. Foram utilizados modelos com 800 mm de altura e seção quadrada de dimensão (200 x 200 x 6,3) mm obtida a partir da composição de dois perfis U (200 x 100 x 6,3) mm. A resistência à compressão média do concreto de preenchimento foi de 50 MPa. Ao todo, foram ensaiados 3 modelos de ligação, utilizando chapas de extremidade e barras rosqueadas como mecanismo de ligação viga-pilar. Como elementos para transferência de forças entre o tubo de aço e o núcleo de concreto foram usados conectores tipo pino com cabeça ou cantoneiras. Os resultados experimentais mostraram a eficiência das barras rosqueadas e dos conectores de cisalhamento na transferência dos esforços de cisalhamento na ligação viga-pilar e na interface perfil de aço e concreto. A simulação numérica teve concordância satisfatória com os resultados experimentais obtidos. / In the design of concrete-filled steel tubular columns, the concrete and the steel tube must work together in order to achieve the overall resistance, stiffness and stability requirements. It is important that exists an adequate mechanism to transfer the forces from the steel beam to the steel tube, and then to the concrete core. This work presents a study on shear transfer in connections involving concrete-filled steel tubular columns and steel beams. The work was divided in two parts, being the first an experimental analysis with push-out tests, and the second one a numerical simulation of the tests, using the software DIANA. The tested specimens were 800 mm height , with square section (200 x 200 x 6,3mm) obtained from two welded U-shape profiles. A concrete with compressive strength of 50 MPa was used as a filling for the columns. Altogether, three connections with steel end plates and passing bars were tested. Two types of shear connectors between steel column and concrete core were used: stud-bolts and angles, and a reference specimen without connectors was also tested. The results showed the efficiency of the shear connectors in the tranference of forces.

Análise experimental

Análise numérica

Cisalhamento

Estrutura mista

Ligação viga-pilar

Pilar misto preenchido

Beam-column

Composite element

Concrete-filled steel tube column

Experimental analysis

Numerical analysis

Shear

Estudo teórico-experimental da ligação entre pilares mistos preenchidos e vigas pré-moldadas de concreto / Experimental and theoretical study of precast concrete beam to concrete-filled steel tube column connection

Leonardo Melo Bezerra

27 May 2011

Neste trabalho, ligações entre vigas pré-moldadas de concreto e pilares mistos preenchidos foram propostas com a finalidade de transferir momento de flexão e força cortante das vigas para os pilares mobilizando os núcleos de concreto. Foi realizado um estudo numérico-experimental das ligações onde foi avaliada a viabilidade e a eficiência destas na transferência dos esforços. Em uma primeira fase, modelos compostos por pilar misto e consolo metálico (modelos 1 e 2) foram confeccionados, testados experimentalmente e modelados numericamente (método dos elementos finitos) para avaliar a eficiência do consolo na transferência da força cortante. Observou-se que a transferência da força cortante do consolo para o tubo metálico foi eficaz. O consolo se comportou de maneira previsível e suportou cargas elevadas. O uso de conectores de cisalhamento internos aos pilares aumentou a capacidade de carga e o desempenho dos mesmos. Na etapa seguinte da pesquisa foram confeccionados dois modelos, compostos por: pilar, viga pré-moldada, laje e consolo formando pórticos. Em um destes modelos (modelo 4) uma caixa metálica foi incorporada à viga pré-moldada e parafusado ao consolo metálico com a finalidade de transferir os momentos positivos, enquanto que outro modelo foi confeccionado e estudado sem este elemento (modelo 3). Nestes modelos foi avaliada a capacidade de transferência do momento de flexão (positivo e negativo) e forças cortantes com a ligação submetida a ciclos de carga. No modelo 3, a ligação transferiu de forma eficiente o momento negativo, porém o desempenho para o momento positivo não foi satisfatório, com baixa resistência e rigidez ao longo dos ciclos de carga. No modelo 4 foi observado considerável aumento da resistência e rigidez se comparado com o modelo anterior. Entretanto, a caixa metálica incorporada à viga pré-moldada não foi capaz de fazer com que a ligação resistisse aos momentos positivos como a mesma eficiência que resistiu aos negativos e houve degradação de suas características estruturais ao longo dos ciclos de carga. / In this work, connections of precast concrete beam to concrete-filled steel tube column were proposed to transfer the bending moment and shear forces from the beam to the composite column, mobilizing the concrete core. Was performed a numerical and experimental study of the proposed connections to evaluate the feasibility and effectiveness of them in the transfer of bending and shear forces from the beam to the column. In a first stage, models composed by column and steel corbel (models 1 e 2) were numerically and experimentally tested aiming the efficiency of the connection in shear transfer. It was observed that the transfer of shear to the steel tube was guaranteed. The corbel behaved in a predictable way and supported high loads. The use of shear connectors in the column increased the load capacity and improved the connection performance. In next stage of the research work, two models were prepared, composed by: column, precast concrete beam, steel corbel and slabs constituting frames. In one of these models (model 4) a steel box was incorporated into the precast beam and bolted to the steel corbel in order to transfer the positive moments, whereas another model was built and studied without this device (model 3). In this models were evaluated the efficiency in the transfer of bending moments (positive and negative) and shear forces with the models subjected to a cyclic loads. In the model 3, the connection transferred efficiently the negative bending, but the performance for the positive bending was not satisfactory, with reduced strength and stiffness over the load cycles. In model 4 was observed considerable increase in strength and stiffness compared with the previous model. However, the device incorporated in the precast beam was unable to make the connection resist to the positive moments with the same efficiency observed when subjected to the negative moments and a degradation of their structural characteristics was observed during the loading cycles.

Concreto

Estruturas híbridas

Ligação

Pilar misto preenchido

Viga pré-moldada

Concrete

Concrete-filled steel tube column

Connections

Hybrid structures

Precast beam