Effect of polymer-strengthened webs on notched concrete beams

Ahmad, Sohail; Butt, Ahmad; Elahi, Ayub

doi:10.1680/jstbu.14.00079

Proceedings of the Institution of Civil Engineers - Structures

2017

DOI: 10.1680/jstbu.14.00079

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Effect of polymer-strengthened webs on notched concrete beams

Sohail Ahmad

Ahmad Butt

Ayub Elahi

Abstract: Concrete beams with notched ends are commonly used in construction. The strut and tie model is a familiar design method used for understanding such geometric discontinuities in concrete structures. The effects of applying carbon fibre-reinforced polymer laminates to strengthen the webs of notched-end concrete beams were studied in this work. To this end, 12 beams with two levels of shear reinforcement were cast and the effect of web strengthening the notched ends with polymers was studied. It was found that th… Show more

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Cited by 2 publications

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“…The experimental bond stress values were compared to models available in the literature. The investigation led to the development of an analytical model to forecast the bond strength of ribbed reinforcing bars in both vibrated and self-compacting concretes.The fourth paper by Ahmad et al (2017) evaluated the effects of using carbon-fibre-reinforced polymer laminates to strengthen the webs of notched-end concrete beams. Two levels of shear reinforcement were cast and the effect of web strengthening the notched ends with polymers was evaluated.…”

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Vellasco

2017

Proceedings of the Institution of Civil Engineers - Structures

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This issue of Structures and Buildings consists of five technical papers. The first paper by Lacidogna (2017) highlights the effects associated with usual structural configurations adopted in high-rise construction. The investigation is centred on the combination of resistant solutions such as wall-frame interaction, in-parallel variable height bracings, combination of variable section elements with different variation laws, and the general stiffening of thin-walled open-section shear walls coming from rigid floor elements. The outcome of the paper confirms the necessity of adequate design engineering tools that properly consider second-order effects.The second paper by Pulatsu et al. (2017) presents a numerical assessment of ancient natural stone columns in the Mediterranean region made from multiple blocks or 'drums'. This was accomplished with the use of a two-dimensional custom-made computational model based on the discreteelement method to obtain capacity curves and corresponding failure mechanisms. The results indicated that rigid overturning is the main collapse mechanism under uniform horizontal forces, but a combination of rigid and shear failure mechanisms might also occur, depending on geometric characteristics and the choice of joint material properties. The ancient free-standing column imperfections also proved to have a significant influence over the lateral load resisting capacity and consequently, undamaged columns structural analysis may not represent their actual load-carrying capacity.In the third paper by Siempu and Pancharthi (2017), the bond performance of ribbed reinforcing bars in self-compacting concrete is reported by means of an experimental investigation and a comparison to normal vibrated concrete results. The main investigated parameters were the characteristic concrete strengths, the bar diameters and the embedment lengths. The experimental bond stress values were compared to models available in the literature. The investigation led to the development of an analytical model to forecast the bond strength of ribbed reinforcing bars in both vibrated and self-compacting concretes.The fourth paper by Ahmad et al. (2017) evaluated the effects of using carbon-fibre-reinforced polymer laminates to strengthen the webs of notched-end concrete beams. Two levels of shear reinforcement were cast and the effect of web strengthening the notched ends with polymers was evaluated. The results indicated that beams with polymer strengthening improved their ultimate loads by up to 17% when compared to unreinforced beams. The authors concluded that retrofitting failed beams with polymer web strengthening reached 90% of the undamaged beam failure loads.The final paper by Tang et al. (2017) concerns long-span concrete structures subjected to early-age thermal expansion and subsequent contraction coming from the exothermic cement hydration reaction. This paper evaluated the finite-element model efficiency, based on the isothermal calorimetry results, to forecast in situ concrete early-age temperature deve...

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“…The fourth paper by Ahmad et al (2017) evaluated the effects of using carbon-fibre-reinforced polymer laminates to strengthen the webs of notched-end concrete beams. Two levels of shear reinforcement were cast and the effect of web strengthening the notched ends with polymers was evaluated.…”

mentioning

confidence: 99%

Editorial

Vellasco

2017

Proceedings of the Institution of Civil Engineers - Structures

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Shear behaviour of pile cap strengthened with carbon fibre reinforced polymers

Ahmad

Yaqub

Elahi

2019

Proceedings of the Institution of Civil Engineers - Structures

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A pile cap is typically a disturbed region with a very small shear span to depth ratio. Flexural theory for reinforced concrete structures cannot be applied to interpret the behaviour of a pile cap because of the non-uniform stress distribution over the depth. In this research, two series of pile caps were designed with different effective depths using strut-and-tie modelling (STM). Three scaled pile caps were cast for each series and tested under monotonic concentrated load until failure to observe the ultimate shear strength. Two additional series of pile caps strengthened with carbon fibre reinforced polymer (CFRP) with exactly the same geometric and design parameters as the control series were cast to observe the shear strength enhancement in comparison with the control specimens. STM proved to be a reliable solution for predicting the shear strength of the pile caps. The application of CFRP resulted in a 15–17% enhancement in the shear strength of the pile caps. It was also found that different prediction models for the evaluation of shear enhancement in beams can be used in the case of pile caps.

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Effect of polymer-strengthened webs on notched concrete beams

Cited by 2 publications

References 14 publications

Editorial

Editorial

Shear behaviour of pile cap strengthened with carbon fibre reinforced polymers

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