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Eco-Friendly Self-Compacting Concrete Incorporating Waste Marble Sludge as Fine and Coarse Aggregate Substitute

Hadi Bahmani, Hasan Mostafaei

2025Buildings13 citationsDOIOpen Access PDF

Abstract

This research investigates the feasibility of producing eco-friendly self-compacting concrete (SCC) by partially replacing both fine and coarse natural aggregates with waste marble sludge (WMS), a byproduct of the marble industry. The objective is to evaluate whether this substitution enhances or compromises the concrete’s performance while contributing to sustainability. A comprehensive experimental program was conducted to assess fresh and hardened properties of SCC with varying WMS content. Fresh-state tests—including slump flow, T50 time, and V-funnel flow time—were used to evaluate workability, flowability, and viscosity. Hardened properties were measured through compressive, flexural, and Brazilian tensile strengths, along with water absorption after 28 days of curing. The mix with 10% replacement of both sand and coarse aggregate showed the most balanced performance, achieving a slump flow of 690 mm and a V-funnel time of 6 s, alongside enhanced mechanical properties—compressive strength 48.6 MPa, tensile strength 3.9 MPa, and flexural strength 4.5 MPa—and reduced water absorption (4.9%). A complementary cost model quantified direct material cost per cubic meter and a performance-normalized efficiency metric (compressive strength per cost). The cost decreased monotonically from 99.1 $/m3 for the base mix to $90.7 $/m3 at 20% + 20% WMS (−8.4% overall), while the strength-per-cost peaked at the 10% + 10% mix (0.51 MPa/USD; +12% vs. base). Results demonstrate that WMS can simultaneously improve rheology and mechanical performance and reduce material cost, offering a practical pathway for resource conservation and circular economy concrete production.

Topics & Concepts

SlumpUltimate tensile strengthAbsorption of waterFlexural strengthAggregate (composite)Materials scienceRheologyEnvironmental scienceCompressive strengthProperties of concreteComposite materialWaste managementMaterial propertiesGeotechnical engineeringCementFlow (mathematics)Absorption (acoustics)MetreNatural materialsFlow propertiesStrength of materialsSedimentationIzod impact strength testMixing (physics)WastewaterInnovations in Concrete and Construction MaterialsRecycled Aggregate Concrete PerformanceInnovative concrete reinforcement materials