Punching Shear Strength of Reinforced Concrete Slabs without Transverse Reinforcement

Muttoni, Aurelio

doi:10.14359/19858

Cited by 106 publications

(57 citation statements)

References 8 publications

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“…An inflection of the radial strain evolution was observed when damage, due to punching, started being localized, resulting even tensile radial strains at failure stage, which is in agreement with results registered by other authors in punching tests with flat RC slabs. 24,25 As shown in Figure 13, when this inflection occurred, the first two bars of the flexural reinforcement counted from the column's surface have already yielded. Although the concrete radial strains had almost linearly increased up to the aforementioned inflection stage, the circumferential compressive strains had a significant increase after concrete crack initiation, with another increase of compressive strain gradient when flexural reinforcement started yielding.…”

Section: Load Carrying and Deflection Capacitiesmentioning

confidence: 96%

Punching behavior of BubbleDeck type reinforced concrete slabs

Nicácio

Barros

Melo

2019

Structural Concrete

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The BubbleDeck type slab (BD) is a reinforced concrete (RC) flat slab that includes recycled plastic hollow spheres (RPHS) in its core for decreasing its dead weight. However, punching capacity of BD slabs can be a critical aspect, thereby this work is devoted to assess experimentally its punching behavior. An experimental program composed of four real scale prototypes, representative of RC flat slabs in punching loading conditions, was carried out. Two of these slabs are of BD type, while the other two do not include the RPHS system, herein denominated as RC solid slab (SS). The test results show that all the tested slabs failed in punching after the occurrence of yield initiation of the flexural reinforcement. The punching capacity and the deflection at failure of BD type slab has decreased up to 14% and up to 44%, respectively, when compared to the corresponding SS type slab. A relatively small ductility index was obtained (between 1.51 and 2.65). In BD type slabs, the punching failure surface had tendency to propagate through the RPHS, at an inclination angle of about 45°.

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Section: Load Carrying and Deflection Capacitiesmentioning

confidence: 96%

Punching behavior of BubbleDeck type reinforced concrete slabs

Nicácio

Barros

Melo

2019

Structural Concrete

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“…Since the slab flexibility is the governing factor for the assessment of flat slab punching shear strength [53], the V-ψ prediction must have a significant degree of reliability. Hence, a focal point in the parametric investigations described in Section 3 was the prediction of V-ψ for a wide range of configurations.…”

Section: Punching Shear Strengthmentioning

confidence: 99%

“…In a simplified manner, lv should be reduced with hv/2 in Equations 1a,b. Besides the obtained V-ψ, Figures 10 to 12 indicate the failure criteria (FC) for punching shear in RC flat slabs (Equation 3[53]) that accounts for a shear-head dependent support of the governing strut, and provide key observations on the member behaviour. These include envelopes of the loads corresponding to yielding in the steel reinforcing materials, namely: longitudinal reinforcement (RY), flange of shear-head (FY), web of shear-head (WY) and the ultimate envelope (U).…”

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confidence: 99%

Nonlinear numerical simulation of punching shear behaviour of reinforced concrete flat slabs with shear-heads

Bompa¹,

Elghazouli²

2019

Preprint

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This paper examines the structural response of reinforced concrete flat slabs, provided with fully-embedded shear-heads, through detailed three-dimensional nonlinear numerical simulations and parametric assessments using concrete damage plasticity models. Validations of the adopted nonlinear finite element procedures are carried out against experimental results from three test series. After gaining confidence in the ability of the numerical models to predict closely the full inelastic response and failure modes, numerical investigations are carried out in order to examine the influence of key material and geometric parameters. The results of these numerical assessments enable the identification of three modes of failure as a function of the interaction between the shear-head and surrounding concrete. Based on the findings, coupled with results from previous studies, analytical models are proposed for predicting the rotational response as well as the ultimate strength of such slab systems. Practical recommendations are also provided for the design of shear-heads in RC slabs, including the embedment length and section size. The analytical expressions proposed in this paper, based on a wide-ranging parametric assessment, are shown to offer a more reliable design approach in comparison with existing methods for all types of shear-heads, and are suitable for direct practical application.

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“…A resistência da ligação é obtida pelo equilíbrio entre as ações aplicadas e as forças internas(RABELLO ,2016). A NBR 6118:2014 adverte que a análise estrutural de lajes lisas deve ser realizada utilizando procedimentos numéricos adequados, tais como diferenças finitas, elementos finitos ou elementos de contorno.Um modelo de cálculo que vem sendo objeto de estudo e se mostrou promissor mediante a comparação com resultados experimentais é apresentado porMuttoni (2008). Este modelo, chamado teoria da fissura de cisalhamento crítica (critical shear crack theory), é baseado na teoria de que a resistência da laje à punção diminui à medida que a rotação da laje aumenta.Este comportamento é explicado porMuttoni e Schwartz (1991), que afirmam que a resistência ao cisalhamento é reduzida pela presença propagação de uma fissura crítica pela laje na biela comprimida que direciona o esforço para o pilar.…”

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“…Além disso, o modelo leva em consideração a influência do efeito de tamanho, que considera a perda da resistência à punção com o aumento da espessura da laje. A Figura 3.14 ilustra a correlação da abertura da fissura, a espessura da laje e a sua rotação ψ.Figura 3.14 -Correlação entre a abertura da fissura crítica, espessura da laje e a rotação.Apesar dos resultados da teoria de fissura de cisalhamento crítica apresentarem uma pequena variação comparados com ensaios experimentais apresentados porMuttoni (2008),Ferreira (2010) adverte que, como o método considera apenas a rotação da laje como corpo rígido e que não ocorre o deslizamento da superfície de ruptura na região da fissura, "tende a estimar deformações e, consequentemente, tensões superiores quanto mais afastadas do pilar estiverem as armaduras de cisalhamento, quando na realidade o efeito é oposto". Esta consideração pode levar a resultados inadequados.3.6.…”

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Proposta para o cálculo de carga de ruptura por punção em lajes de concreto reforçado com fibras de aço

Dantas¹

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Punching Shear Strength of Reinforced Concrete Slabs without Transverse Reinforcement

Cited by 106 publications

References 8 publications

Punching behavior of BubbleDeck type reinforced concrete slabs

Punching behavior of BubbleDeck type reinforced concrete slabs

Nonlinear numerical simulation of punching shear behaviour of reinforced concrete flat slabs with shear-heads

Proposta para o cálculo de carga de ruptura por punção em lajes de concreto reforçado com fibras de aço

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