Article ID | Journal | Published Year | Pages | File Type |
---|---|---|---|---|
7493969 | Resources, Conservation and Recycling | 2018 | 15 Pages |
Abstract
Due to their good performance and environmental friendliness, fly ash-based construction materials have great potential as alternatives to ordinary Portland cement. To realize sustainable development and beneficial use of fly ash in the construction industry, this paper presents a comprehensive review of relevant literature to evaluate the properties and performance of fly ash, with a particular focus on recent advances in characterization, compositional understanding, hydration mechanism, activation approaches, durability and sustainability of fly ash as a construction material. Several key aspects governing the performance of fly ash, including chemical composition, activator type and hydrates evolution in concrete, are highlighted. Finally, the important needs, pertinent to the optimal and broad utilization of fly ash as an integral part of sustainable construction materials, are identified for further research and development, where large-scale application studies, further classification of fly ash, advanced characterization tools and technology transfer to biomass fly ash are recommended.
Keywords
GNPFBCACAASCMC3aFGDCNTOPCMAS-NMRAARC–S–HRCACBArGOSEM/EDSTricalcium aluminateFluidized bed combustionnet present valueLCALife-cycle assessmentReduced graphene oxideTemCost-benefit analysisrecycled concrete aggregateFly ashHigh volume fly ashAlkali-activated fly ashMagic-angle spinning nuclear magnetic resonanceFlue gas desulphurizationOrdinary Portland CementDurabilityFTIRFourier transform infrared spectrometryXRFAlkali activationX-ray fluorescenceSupplementary cementitious materialNPV یا negative predictive valueTransmission electron microscopyCKDGraphene nanoplateletCarbon nanotubesNanomaterialCalcium silicate hydrateAlkali aggregate reactionSustainabilityX-ray diffractionXRDGeopolymerCement kiln dust
Related Topics
Physical Sciences and Engineering
Energy
Renewable Energy, Sustainability and the Environment
Authors
Gang Xu, Xianming Shi,