Article Dans Une Revue Buildings Année : 2025

Recycling Marble Waste from Afghan Mining Sites as a Replacement for Cement and Sand

Résumé

The marble industry in Afghanistan generates significant waste due to a lack of skilled labor and advanced machinery, which is often discarded in landfills. Previous studies suggest that marble waste can be utilized in construction, particularly in cement-based structures. This research investigates using marble waste in concrete as a replacement for cement and sand to address environmental concerns and promote sustainability. A comparative study replaced marble waste with a calcareous filler from Omya SAS. The marble waste, collected from a mining site in Nangarhar, Afghanistan, consisted of 29% particles smaller than 63 μm and 71% sand particles. The waste marble (WM) was added to concrete as a replacement for cement and sand at 3.5%, 4%, and 4.5% by volume. Limestone filler (LF) replaced only cement in the concrete mix. The reference concrete mix aimed for a C25/30 strength. The results showed slight improvements in concrete workability with increasing waste marble content. The optimal WM dosage was 4%, which led to a 9% reduction in compressive strength and a 7% drop in splitting tensile strength. However, this dosage reduced concrete density, improving transfer properties and resulting in cheaper, lighter concrete. The 4% WM dosage corresponds to 7.5% cement and 12% sand replacement.

Dates et versions

hal-05308328 , version 1 (10-10-2025)

Identifiants

Citer

Mohammad Rafi Rafi, Safiullah Omary, Amanullah Faqiri, Elhem Ghorbel. Recycling Marble Waste from Afghan Mining Sites as a Replacement for Cement and Sand. Buildings, 2025, 15 (2), pp.164. ⟨10.3390/buildings15020164⟩. ⟨hal-05308328⟩
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