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Recycled concrete fines as a supplementary cementitious material: Mechanical performances, hydration, and microstructures in cementitious systems

Jun Li, Xin Deng, Zhongyuan Lu, Xiaoying Li, Li Hou, Jun Jiang, Fengyuan Yang, Junjin Zhang, Kewen He

2024Case Studies in Construction Materials14 citationsDOIOpen Access PDF

Abstract

Using recycled concrete fines (RFs) as a supplementary cementitious material in blended cement systems offers potential benefits for the construction industry. This study investigated the mechanical properties, hydration development, and microstructural evolutions of blended Portland cement systems incorporating different particle-size distributions of untreated RFs. The results highlighted that finer RFs improved the compressive strength of mortar and influenced hydration by promoting monocarbonate formation. The incorporation of RFs optimizes the pore structure in the early stage but increases porosity. RFs affected the distribution of capillary pores and created a rougher and more complex surface compared to inert mineral admixtures. Furthermore, the particle size of RFs impacted the fractal dimension of multi-scale pore sizes.

Topics & Concepts

CementitiousMaterials scienceCementPortland cementCompressive strengthMicrostructureMortarComposite materialFractal dimensionPorosityInertParticle-size distributionParticle sizeParticle (ecology)FractalChemical engineeringMathematical analysisOceanographyQuantum mechanicsGeologyPhysicsMathematicsEngineeringRecycled Aggregate Concrete PerformanceConcrete and Cement Materials ResearchInnovations in Concrete and Construction Materials
Recycled concrete fines as a supplementary cementitious material: Mechanical performances, hydration, and microstructures in cementitious systems | Litcius