Prediction of Bond Between Steel and Concrete by Numerical Analysis

Khalfallah, Salah; Ouchenane, Meriem

doi:10.2174/1874149500802010001

Cited by 5 publications

(2 citation statements)

References 11 publications

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“…In the previous studies, several local bond stress-slip relationships between steel reinforcement and concrete subjected to axial pullout have been proposed and can be generally classified in terms of bond stress distribution. One of them is based on piecewise non-uniform distributions [1,2,[4][5][6][7][8][9][10][11] found in the literature. A common demerit of this type of idealization is that the embedment length has to be divided into many segments, upon which iterative calculations have to be performed to satisfy the steel stress-strain relationship, the local equilibrium between bond force and bar force, and boundary conditions for different segments of embedment lengths.…”

Section: Introductionmentioning

confidence: 99%

Analytical Model on the Bond Stress-Slip Relationship between Steel Reinforcement and Concrete for RC Beam-Column Joints

Long

Tan

Lee

2013

AMM

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There are no conventionally accepted failure criteria for progressive collapse, and often times, deflection of affected beams over the “missing column” are often used as performance criteria. However, when simulating the deformation behaviour and the strength of reinforced concrete (RC) framed structures for progressive collapse analysis, besides the flexural deformations, the so-called “fixed end” rotation induced by the longitudinal bar slip at the beam-column ends connected to the joints can be significant and result in additional lateral deformations not accounted for in the initial analysis. Hence, it is important to quantify the deformations arising from fixed end rotations. Several bond stress-slip relationships between steel reinforcement and concrete were previously proposed in the literature. In the present work, their merits and demerits are discussed in terms of application limitation. To address the limitations of previous bond-slip models, a new analytical model based on the bond stress integration along the bar stress propagation length is proposed to predict the bar-slip behaviour in the RC beam-column joints. The proposed analytical model on the bond stress-slip relationship is validated against experimental studies from the literature and is shown to be simple and reliable.

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Section: Introductionmentioning

confidence: 99%

Analytical Model on the Bond Stress-Slip Relationship between Steel Reinforcement and Concrete for RC Beam-Column Joints

Long

Tan

Lee

2013

AMM

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“…Alternatively, some other types of piecewise nonuniform distributions as shown in Fig. 2.8 are found in the literature, such as the multi-linear distribution (Yankelevsky 1985;Ueda et al 1986;Kwak and Filippou 1990;Kwak and Filippou 1997;Khalfallah and Ouchenane 2008)…”

Section: Bar-slip Componentmentioning

confidence: 99%

Numerical study on reinforced concrete beam-column frames in progressive collapse

Xu¹

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Characterization of Machining Parameters on Polymer Matrix Composite Using Taquchi Technique

Nallusamy

Sujatha

2022

Encyclopedia of Materials: Plastics and Polymers

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Prediction of Bond Between Steel and Concrete by Numerical Analysis

Cited by 5 publications

References 11 publications

Analytical Model on the Bond Stress-Slip Relationship between Steel Reinforcement and Concrete for RC Beam-Column Joints

Analytical Model on the Bond Stress-Slip Relationship between Steel Reinforcement and Concrete for RC Beam-Column Joints

Numerical study on reinforced concrete beam-column frames in progressive collapse

Characterization of Machining Parameters on Polymer Matrix Composite Using Taquchi Technique

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