Navegando por Assunto "Flat slab"

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Acesso aberto (Open Access)
Análise do efeito da retangularidade dos pilares nos critérios normativos de dimensionamento à punção em lajes lisas de concreto armado
(Universidade Federal do Pará, 2013-10-22) PAIVA, Odilson da Silva de; OLIVEIRA, Dênio Ramam Carvalho de; http://lattes.cnpq.br/1324105476558186
The system with flat slabs that do not depend on framework of beam has limited resistance by the resistance to punching shear, since the region of the slab-column is critical due to concentrated loads around the columns. The geometry of the columns is one of the factors influencing the distribution of stresses in the region of slab-column connection affecting turn in sizing the punching shear in the flat slabs. In this study we performed a thorough data collection that aims to collect into a single job the greatest possible amount of slabs covering the biggest names in the study of national and international punch, featuring a total of 131 slabs. A comparison was made between the main normative codes currently used Eurocode 2 (2004), NBR 6118 (2007), ACI 318 (2008) and CEB-FIP (2010). The experimental results were compared with those obtained theoretically taking into account the effects of retangularidade rate index in flat slabs of reinforced concrete, without punching shear reinforcement checking the adequacy, trustworthiness of each recommendation, analyzing the particularities of the rules and guidelines of each normative criterion.
Acesso aberto (Open Access)
Análise experimental de lajes lisas nervuradas de concreto armado com armadura de cisalhamento
(Universidade Federal do Pará, 2007-11-01) SOUZA, Shirley do Socorro Melo de; OLIVEIRA, Dênio Ramam Carvalho de; http://lattes.cnpq.br/1324105476558186
Two-way waffle flat slabs are structural elements of reinforced concrete supported directly on columns, under bending moments over the two directions, they improve the speed of the execution and save moulds and concrete and, consequently, labor. This work seeks to contribute for the study of the behavior of this kind of slab, as the shear resistance of the ribs and the punching in the solid area, through tests of 8 two-way reinforced concrete waffle flat slabs. Comparative analyses between the experimental results and estimated by national and international design codes had been carried out. The slabs were square, with 1.800 mm of side and total height of 140 mm. The cross section of the slabs was formed by ribs with 50 mm of width for the base and 100 mm for the upper base and the spaces between the ribs had been filled with EPS blocks (expanded polystyrene). The main variables considered were the type of shear reinforcement in the ribs (trusses, closed vertical stirrup and 45 inclined stirrup) and the use of 45 inclined stirrup as shear reinforcement in the solid region. They were presented and analyzed the results observed for the vertical displacements, deformation in the flexural and shear reinforcement, and the propagation of cracks. The values observed for failure loads were compared with the estimated ones. It was observed that the shear reinforcement in the ribs did not increase the failure loads and that the shear reinforcement in the solid region increased significantly the resistance of the slabs.
Acesso aberto (Open Access)
Análise experimental de lajes lisas unidirecionais de concreto armado ao puncionamento simétrico ou assimétrico
(Universidade Federal do Pará, 2006-03-02) FERREIRA, Maurício de Pina; OLIVEIRA, Dênio Ramam Carvalho de; http://lattes.cnpq.br/1324105476558186
Punching is normally a critical case in the design of reinforced concrete flat slabs. According to many design codes, punching develops in a more unfavorable way in cases where the load is asymmetrically applied, due to unbalanced bending moments at slab-column connections. In order to evaluate the normative prescriptions in these cases, 12 reinforced concrete oneway flat slabs ( c f ' between 36 and 58 MPa) were submitted to symmetric or asymmetric punching. The slabs dimensions were (1.800 x 1.800 x 110) mm with the load being applied through a metallic plate simulating a square column with (85 x 85 x 50) mm. This research had as variables, in addiction to the load position, the reinforcement rate in transversal direction, in order to evaluate their influence in the punching ultimate resistance of one-way slabs. Results for vertical deflections, concrete surface and flexural reinforcement strains, cracking pattern, observed ultimate loads and failure modes are presented and analyzed. Also were analyzed the estimates of 6 design codes, with 3 European and 1 North-American, beyond the versions from 1978 and 2003 of the Brazilian structural concrete design code. A numerical analysis using the Finite Elements Method to simulate the slabs behavior is presented and its results are compared to the experimentally observed ones. The results showed that, unlike the normative previsions, punching resistance doesnt reduce linearly with the increments in the loads eccentricities, with the flexural effects significantly influencing the ultimate punching resistance. Even in one-way slabs, the transversal reinforcement rate showed significant influence on the slabs force distribution, interfering in the punching resistance.
Acesso aberto (Open Access)
Análise experimental de lajes lisas unidirecionais de concreto armado com pilares retangulares ao puncionamento
(Universidade Federal do Pará, 2007-12-20) DAMASCENO, Lins Sandro Resque; OLIVEIRA, Dênio Ramam Carvalho de; http://lattes.cnpq.br/1324105476558186
They were analyzed 8(eight) experimentally one-way flat slabs of reinforced concrete, without punching shear reinforcement, for that the reinforcement rate in secondary direction and the largest dimension of the pillars (cmax). The flat slab were dimensions of (1.800 x 1.800 x 110) mm, same flexing reinforcement, to smallest dimension of the columns (cmin) constant and equal to 85 mm, resistance to the compression of the concrete around 40 MPa and submitted to the load in the center (symmetrical punching shear), that it simulates an internal column of a pavement. The application of the load was accomplished in passages of columns linked moliticamente to the flat slab with height 150 mm, with retangularidade rate (r = cmax/cmin) varying from 1 to 7. The objective was to evaluate the influence of the retangularidade rate, that contemplated in the increase of the control perimeter in this case, in the behavior of the slabs under flexing, and possibly a more ductile failure. The objective went to also analyze the dear rupture loads starting from the recommendations of six national and international project codes, comparing with the obtained experimental results and evaluating the estimates to the punching shear, once, when the dimensions of the pillars are substantially different can happen the polarization of tensions and the resistance earnings doesn't happen in way directly proportional to the increase of the perimeter of the columns. After analyzing the influences of the retangularidade rate of the columns and the contributions that the reinforcement rate in secondary the last loads of the flats slabs and in the failure modes, it was observed that the experimental results indicated that those varied besides elevating the resistance of the connection can supply certain ductility to the failure of the slabs. It was observed that the rate of growth of the resistances obtained in the rehearsals decreases with increments in the control perimeter. Of the observations regarding the comparison among the values of resistances of the flats slabs, it was verified that the increase of the load of experimental rupture didn't come in a lineal way, indicating that the rate of growth of the load decreases with the increase of the perimeter of the column or of the rate cmax/cmin when stays constant to smallest dimension of the column (cmin).
Acesso aberto (Open Access)
Avaliação dos métodos normativos para previsão da resistência à punção de lajes sem armadura de cisalhamento e com conectores de aço
(Universidade Federal do Pará, 2016-06-06) PEREIRA FILHO, Manoel José Mangabeira; FERREIRA, Maurício de Pina; http://lattes.cnpq.br/4242041552985485
This work presents an evaluation of the code provisions of various standards for the punching shear failure load on slab-column connections without shear reinforcement and reinforced with steel connectors. The code provisions evaluated are the ACI 3118 (2014), Eurocode 2 (2004), AC Eurocode 2 (2010), UK NA (2004), DIN NA (2011), EHE (2008), NBR 6118 (2014), ETA 12 / 5404 (2012), an adaptation of the ETA proposed by MUTTONI and BUJNAK (2012) and the fib Model Code 2010 (2011). These code recommendations are evaluated for accuracy, safety and economy through 340 test results in flat slabs without shear reinforcement and 140 results flat slabs reinforced with various types of steel connectors arranged in two databases, and all slabs had centered load. In both databases the performance of recommendations was evaluated from a statistical analysis, dispersion analysis of the results and penalized according to the "Demeter Points Classification" (DPC). In addition to the database with slabs without shear reinforcement analysis, in order to assess the reason for the dispersion of code provisions observed the influence of various parameters (fc, ρ, d, u0/d) in code provisions of punching shear resistance load. For the database with results of slabs reinforced with connectors, beyond the initial analysis, the database was divided into groups according to the failure modes of slab. In all groups was carried out the evaluation of equations for each mode of breakage by means of a statistical analysis, dispersion penalty and analysis of results using the "Demeter Points Classification" (DPC). In all groups were assessed the influence of various parameters in the provisions.
Acesso aberto (Open Access)
Influência do detalhamento dos estribos na resistência à punção de lajes lisas de concreto armado
(Universidade Federal do Pará, 2021-09-15) COSTA, Mayara Gonçalves; FERREIRA, Maurício de Pina; http://lattes.cnpq.br/4242041552985485; https://orcid.org/0000-0001-8905-9479
Stirrups used as punching shear reinforcement in reinforced concrete flat slabs can provide strength gains to the regions of slab-column connection. To this end, the standards recommend that the details should be made in order to ensure their anchorage in the flexural reinforcement bars, involving them. However, designs that strictly follow the detailing criteria may become difficult to execute, or even unfeasible, due to the concentration of longitudinal bars in these regions. The need for more practicality in the assembly of stirrups has driven the development of reinforcement systems, whose anchorage details are not yet contemplated in the normative prescriptions. Therefore, the scientific validation of such constructive alternatives is necessary. In this context, this work seeks to contribute to the validation process of numerous constructive alternatives for stirrups used as punching shear reinforcement, so that, in this way, they can be properly disseminated in the technical environment. The objective of this work is to evaluate the influence of the variation of the stirrups anchorage on its efficiency, from an extensive review of scientific literature, which enabled the assembly of a database containing 119 punching shear tests in internal slab-column connections, subjected to symmetric loading. The analysis parameters were the increments of strength provided as a function of the increase of force played by the shear reinforcement. At the end, the most efficient anchorage details for different types of stirrups used as punching shear reinforcement were defined and, for such stirrups, assembly instructions were proposed, aiming the optimization of the constructive process.
Acesso aberto (Open Access)
Punção em lajes lisas unidirecionais de concreto armado com diferentes taxas de armadura secundária e pilares retangulares.
(Universidade Federal do Pará, 2022-09-29) BRANCO, Vitor Hugo Lopes; OLIVEIRA, Dênio Ramam Carvalho de; http://lattes.cnpq.br/1324105476558186
Symmetric punching tests and experimental analyses were conducted to evaluate the behavior of nine one-way reinforced concrete flat slabs. The slabs measured (1800 x 1800 x 120) mm, and loads were applied through three types of columns: A (85 × 85) mm, B (85 × 255) mm and C (85 × 425) mm. All slabs were made with constant longitudinal reinforcement ratio at around 1% (ρx) and different secondary flexural reinforcement ratios (ρy), namely type 1 (0.5%), type 2 (1%) and type 3 (2%), approximately. Concrete compressive strength of 28 MPa and elasticity modulus of 27 GPa. Reinforcement yield stress of 573 MPa and elasticity modulus of 244 GPa. Column rectangularity index (cmax/cmín) and secondary reinforcement ratio were the main research variables, and the present study evaluated their influence on the ultimate punching strength of the sampled one way reinforced concrete flat slabs. The experimental results were compared with four current international standards: ACI 318 (2019), EC2 (2004), MC 2010 (2011) and NBR 6118 (2014). They were also compared with the findings from a nonlinear numerical analysis made with the software ABAQUS CAE 6.14, based on the Finite Element Method (FEM) and on the Concrete Damage Plasticity (CDP) model. The results indicated that the standards need to be updated, and that there is a proportional increase of up to 50% approximately in slab punching strength when the secondary reinforcement ratio is increased by up to 2%.