Mechanical strength and environmental impacts of eco-self-compacting mortar containing dune sand in the Oued-Souf region of Algeria as cementitious materials

Moussa Hadjadj; Youcef Toumi; Selma Lounis; Merouane Guettioui

doi:10.35784/bud-arch.7053

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Published: Jun 25, 2025

DOI: https://doi.org/10.35784/bud-arch.7053

Issue Vol. 24 No. 2 (2025)

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Mechanical strength and environmental impacts of eco-self-compacting mortar containing dune sand in the Oued-Souf region of Algeria as cementitious materials
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DOI

https://doi.org/10.35784/bud-arch.7053

Authors

Moussa Hadjadj

hadjadj1204@gmail.com

Department of Civil Engineering; Laboratory Materials and Environment (LME); Faculty of Technology; University of Médéa;, Algeria

https://orcid.org/0009-0007-2304-2712

Youcef Toumi

youceftoumi20188@gmail.com

Department of Civil Engineering; Laboratory Materials and Environment (LME); Faculty of Technology; University of Médéa;, Algeria

Selma Lounis

lounisselma82@gmail.com

Department of Process Engineering; Laboratory Materials and Environment (LME); Faculty of Technology; University Saad Dahlab of Blida;, Algeria

Merouane Guettioui

guettioui.merouane@gmail.com

Department of Civil Engineering; Laboratory Materials and Environment (LME); Faculty of Technology; University of Médéa;, Algeria

Abstract

Desertification is a major global problem, while the scarcity of renewable energy sources continues to be a growing concern. Due to the abundance of dune sand in the southern regions of the Algerian Sahara, known as dry zones, and despite the beauty of the dune sand and its scenic appearance, it has become a threat to surrounding vegetation through the desertification of agricultural lands. To address these challenges, the use of dune sand as a cementitious material in sustainable concrete has been studied. In this work, the effect of using dune sand powder (DSP) as a partial replacement for Ordinary Portland Cement (OPC) on the workability, mechanical, and microstructural properties of self-compacting mortars (SCM) was investigated. In this study, OPC was replaced by 5%, 10%, 15%, and 20% DSP by weight. The fresh properties of SCM mixtures were evaluated using the mini-slump flow and V-funnel flow time tests. The mechanical performance of SCM was assessed through compressive strength and flexural strength tests. SEM analysis was also conducted to examine the microstructural development of the hardened SCM. The results show that the use of DSP improved the workability of SCM mixtures. The study revealed that the compressive strength and flexural strength increased to 63.03 MPa and 8.8 MPa, respectively, with a 20% DSP replacement. The findings demonstrate that up to 20% dune sand powder can be used as a Portland cement replacement, with a fineness of 5000 cm²/g, without adversely affecting mechanical performance. Despite its crystalline nature, dune sand powder exhibits partial pozzolanic reactivity.

Keywords:

self-compacting mortars, dune sand, cementitious materials, mechanical properties, environmental impacts

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Hadjadj, M. (2025) “Mechanical strength and environmental impacts of eco-self-compacting mortar containing dune sand in the Oued-Souf region of Algeria as cementitious materials”, Budownictwo i Architektura, 24(2), pp. 191–206. doi: 10.35784/bud-arch.7053.

Mechanical strength and environmental impacts of eco-self-compacting mortar containing dune sand in the Oued-Souf region of Algeria as cementitious materials

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