Improving the Self-Compacting Concrete Properties by Incorporating a New Micronized Limestone Filler

Sassi, Raoudha; Jelidi, Ahmed; Montassar, Sami

doi:10.2478/jaes-2022-0029

Cited by 2 publications

(1 citation statement)

References 9 publications

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“…Many new materials have been identified that lead to obtaining this type of concrete. In recent years, researchers have developed SSC mixtures and many new materials have been identified that lead to obtaining this type of concrete, such as [17,18].…”

Section: Self-compacting High-performance Concretementioning

confidence: 99%

Amelioration of Flexural Performance for Reinforced Concrete Beams by Soffit Bonded High Performance Self Compacting Concrete Prisms

Yas,

Al-Hadithy

2024

Civil and Environmental Engineering

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This paper presents a strengthening technique using a high-performance fibre-reinforced cement-based composite (HPFRCC) mixture. To evaluate the performance of this approach, two types of concrete mixtures were used one high performance and other high strength in strengthening process and compared to strengthening using CFRP laminate. The results showed that the strengthening was in the proportions (42 %, 58.03 %, 74.32 %) for (Mhs, Mcfrp, Mhp), respectively, Where the strengthening improved the bending capacity for beam (Mhp) to a greater extent of the other types and it reduced the appearance of cracks in the beam when loading until occur failure. As appeared failure modes in all elements were due to rupture in the flexure region and crush in the compression region. In addition, ductility index of the strengthened beams was acceptable and energy absorption of the strengthened samples high if compared to the reference beam Therefore, it can be said that this technology may provide a safer alternative for flexural strengthening of RC beams.

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Section: Self-compacting High-performance Concretementioning

confidence: 99%

Amelioration of Flexural Performance for Reinforced Concrete Beams by Soffit Bonded High Performance Self Compacting Concrete Prisms

Yas,

Al-Hadithy

2024

Civil and Environmental Engineering

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Numerical simulation of fresh concrete flow in the L-box test using computational fluid dynamics

Sassi

Jelidi

Montassar

2023

Magazine of Concrete Research

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Concrete remains a widely used material in construction. As structures become more optimized, a deeper understanding of the rheology of the concrete mixture is necessary. This paper aims to numerically simulate the flow of fresh concrete in the L-box apparatus, with the objective of gaining insights into its rheological behavior and predicting its properties. The fresh concrete flowing through the L-Box test is simulated from the moment that the gate is lifted until the stoppage and the material takes its final shape. The flow in this tool occurs on a free surface. In this work, a three-dimensional model has been developed using the computational fluid dynamics (CFD) technique for simulation. The flow behavior of fresh concrete was assumed to be non-Newtonian following the Bingham law, characterized by a non-linear shear-strain rate ratio, yield stress, and plastic viscosity. A set of numerical simulations by varying workability were conducted. Furthermore, a parametric study was conducted to examine the impact of introduced parameters in the concrete flow, including the effect of yield stress, viscosity, and density.

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Improving the Self-Compacting Concrete Properties by Incorporating a New Micronized Limestone Filler

Cited by 2 publications

References 9 publications

Amelioration of Flexural Performance for Reinforced Concrete Beams by Soffit Bonded High Performance Self Compacting Concrete Prisms

Amelioration of Flexural Performance for Reinforced Concrete Beams by Soffit Bonded High Performance Self Compacting Concrete Prisms

Numerical simulation of fresh concrete flow in the L-box test using computational fluid dynamics

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