An overview on mixture design of self‐compacting concrete

Ashish, Deepankar Kumar; Verma, Surender Kumar

doi:10.1002/suco.201700279

Cited by 51 publications

(26 citation statements)

References 62 publications

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“…SCC is used for the construction of RC members with a closely spaced steel reinforcement where the possibility of compacting concrete is limited. However, the use of SCC does not require any compaction using vibrators unlike other conventional concrete 22–24 . SCC should possess three main characteristics in its fresh state such as (i) filling ability, (ii) passing ability, and (iii) resistance to segregation.…”

Section: Introductionmentioning

confidence: 99%

Effect of self‐compacting concrete infill on the flexural behavior of hollow channel sections: Experimental and numerical studies

P.S

Kannan²

2021

Structural Concrete

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Use of hollow cold‐formed steel (CFS) sections has gained popularity in the construction of light industrial and commercial structures. However, their overall load carrying capacity under flexure can be severely affected due to the possible buckling failure modes. Addition of concrete as an infill material for hollow CFS sections can significantly improve their overall performance by resisting their inward local buckling. In this paper, the effectiveness of self‐compacting concrete (SCC) as an infill material for hollow channel sections (HCS) is investigated under flexure. In total, nine full‐scale hollow channel sections with and without SCC infill are tested to understand the effect of different parameters namely (i) width to depth ratio, (ii) section thickness, and (iii) developed length. In addition, a detailed nonlinear finite element (FE) modeling was performed using the software ABAQUS. Moreover, an analytical investigation was performed to determine the ultimate moment capacity of SCC infilled sections using the strain compatibility procedure. Test results revealed that the addition of SCC infill helped in increasing the ultimate moment resistance by more than 100% when compared to the specimens with no infill. Moreover, the local buckling resistance of HCS is significantly improved due to the addition of SCC infill. The validated analytical and finite element models were used for performing an extensive parametric investigation.

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Section: Introductionmentioning

confidence: 99%

Effect of self‐compacting concrete infill on the flexural behavior of hollow channel sections: Experimental and numerical studies

P.S

Kannan²

2021

Structural Concrete

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“…Brouwers et al [24] defined a design method for conventional strength SCC based on minimizing the volume of mortar. All these different methods that have been developed, according Ashish et al [25], could be divided in six categories, namely, empirical design methods, statistical factorial design methods, strength-based design methods, rheology of paste methods, particle packing methods and Eco-SCC mixture design methods.…”

Section: Introductionmentioning

confidence: 99%

Determination of the Optimum Amount of Superplasticizer Additive for Self-Compacting Concrete

et al. 2020

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Self-compacting concrete modifies its workability with small variations in the amount of superplasticizer additive. For this reason, large number of tests are required to monitor its workability. In order to determine the appropriate amount of additive for a single mix, the evolution of the power consumption of the concrete mixer during the addition of small amounts of additive to the concrete was analyzed. These results were compared both with typical workability characterization for self-compacting concrete and with the saturation point results, determined by the Marsh cone method. After this comparison, a good correlation was obtained between the results from the traditional tests and the proposed “concrete mixer method”.

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“…So, exploring the above‐indicated concern and hurdles partial substitution of OPC by marble slurry was experimented by many researchers in different aspects worldwide, and promising results were established 14 . An article by Tunc, 15 Ashish and Verma 16 demonstrate the benefits of utilizing the marble waste in different industrial, ecological, and structural domains. Arel 17,18 stated that the presence of marble cutting waste as fine aggregate in cement concrete though decreases the workability but increment in mechanical properties was observed due to the presence of CaCO 3 and SiO 2 .…”

Section: Introductionmentioning

confidence: 99%

Effect of marble slurry as a partial substitution of ordinary Portland cement in lean concrete mixes

Parmar

Das

2020

Structural Concrete

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Marble stone is the mostly quarried stone in Rajasthan for its high demand in India and abroad. This quarrying resulted in the generation of waste in a slurry form which was dumped in the nearby landfill sites resulted in a detrimental effect on the soil strata and expanding the landfill area with time. The focus of the study is to explore the outcome of utilization of marble slurry as a partial substitution of ordinary Portland cement by 10%, 20%, 30%, and 40% for lean concrete mixes with an average target compressive strength of 20 MPa or more. To explore the prospect of deployment of marble slurry in cement concrete mechanical properties, durability aspects, and relevant microstructural analysis was performed, and the results have been reported. Though the durability aspect was not purely encouraging, though it was depicted that marble slurry can be utilized as a partial replacement of OPC up to 40% for the purpose for which the investigation has been done. Highlights Marble slurry utilized as a substitution of OPC by 10%, 20%, 30%, 40%. TGA results indicate that marble slurry did not affect the hydration of OPC. Resistance against carbonation decreases with the increment of marble slurry content. UPV results indicates after 40% substitution concrete was in the good quality zone.

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An overview on mixture design of self‐compacting concrete

Cited by 51 publications

References 62 publications

Effect of self‐compacting concrete infill on the flexural behavior of hollow channel sections: Experimental and numerical studies

Effect of self‐compacting concrete infill on the flexural behavior of hollow channel sections: Experimental and numerical studies

Determination of the Optimum Amount of Superplasticizer Additive for Self-Compacting Concrete

Effect of marble slurry as a partial substitution of ordinary Portland cement in lean concrete mixes

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