Lightweight concrete with Algerian limestone dust. Part II: study on 50% and 100% replacement to normal aggregate at timely age

Kitouni, S.; Houari, H

doi:10.1590/0366-69132015613601957

Cerâmica

2015

DOI: 10.1590/0366-69132015613601957

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Lightweight concrete with Algerian limestone dust. Part II: study on 50% and 100% replacement to normal aggregate at timely age

S. Kitouni

H Houari

Abstract: A control lightweight concrete (LWC) mixture made with 50% and 100% of limestone as a replacement of coarse aggregates in weight was prepared. Limestone is used for economical and environmental concern. The concrete samples were cured at 65% relative humidity at 20 °C. The compressive and flexural tensile strengths, elastic modulus and Poisson's ratio of hardened concrete were measured. Laboratory compressive and tensile strength tests results showed that LWC can be produced by the use of limestone. The aim of… Show more

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Cited by 4 publications

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“…The development of lightweight concrete as a structural material has been under way ever since the Roman Empire. Likewise, their sensible utilization occurred when lightweight concrete ships were developed by the American Emergency Fleet Corporation [14]. Furthermore, a series of investigative reviews has been conducted by numerous scholars on the evolution of lightweight concrete by employing a variety of substances, such as ceramist and pottery [15], leca, argex and arlita [16], limestone [14], eps beads [17], rice husk ash [18], vermiculite [9], automotive shredder residues [19], waste polystyrene [20], polyolefins waste [21], polyurethane foam [22], etc.…”

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Utilization of Pyrolytic Carbon Black Waste for the Development of Sustainable Materials

et al. 2020

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The sustainable development of materials is one of the key targets in the modern era of engineering. These materials are developed by different waste products, following the concept of the circular economy. This study focuses on investigating the properties of concrete using carbon black as a partial replacement of natural fine aggregate at different percentages. Experiments were designed according to the British Standard (BS1881-Part-119) and American Standard (ASTM C-78) by including carbon black in concrete beams to perform as filler material to develop sustainable concrete. In this study, mechanical properties of concrete were targeted by developing beams using different percentages (0%, 25%, 50%, 75%, and 100%) as a replacement of fine aggregates. These beams were tested for flexural strength and, later on, the same beams were cut in the form of cubes, following the equivalent cube test mechanism for the compressive strength test. The waste carbon black lightweight concrete developed in this study was utilized for both structural and non-structural purposes. At 25% and 50% replacement, the strength of lightweight concrete varied from 20–18 MPa, and according to American Concrete Institute (ACI) standards, lightweight concrete at 28 days strength with ≥17 MPa can be used as structural concrete, and the remaining 75% and 100% replacement concrete can be used for non-structural purposes. This study will help in the development of economical eco-friendly sustainable concrete materials.

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Utilization of Pyrolytic Carbon Black Waste for the Development of Sustainable Materials

et al. 2020

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Confinement effects on circular steel tubes filled with foamed concrete (FCFST) subjected to axial thrust and bending

2019

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Study of Environmental Concrete with Algerian Limestone Dust at Late Age

Kitouni¹

2023

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Lightweight concrete with Algerian limestone dust. Part II: study on 50% and 100% replacement to normal aggregate at timely age

Cited by 4 publications

References 20 publications

Utilization of Pyrolytic Carbon Black Waste for the Development of Sustainable Materials

Utilization of Pyrolytic Carbon Black Waste for the Development of Sustainable Materials

Confinement effects on circular steel tubes filled with foamed concrete (FCFST) subjected to axial thrust and bending

Study of Environmental Concrete with Algerian Limestone Dust at Late Age

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