Fly ash-based eco-friendly geopolymer concrete: A critical review of the long-term durability properties

Since fly ash (FA) is widely available across the globe, which is used to produce the next generation green concrete for the modern construction. The FA is a pozzolanic material with high alumina and silica content that gives a cementitious property in the presence of water. Thereby, FA-based geopolymer concrete (FA-GPC) seems to be a superlative option over the conventional concrete, to be developed. Using costeffective and commonly obtainable FA as mineral fillers in concrete brings plentiful advantages to reduce the consumption of ordinary Portland cement (OPC), eliminate the disposal of FA in landfills, and decrease the CO2 emissions, which all contribute toward a clean environment. With FA, a durable FAGPC is a comparatively new, revolutionary and sustainable engineered composite material with several benefits, including the high early strength and improved durability properties (such as reduced permeability) against aggressive environments. Production of sustainable and greener concretes has become a major interest in the construction industry globally. This paper reviews the clean production, factors affecting the durability of FA-GPC, and the human health and environmental impacts of FA disposal. This review also aims to provide a critical review on the long-term durability properties and the behavior of FA-GPC composites, in addition to synopsize the research development trends to generate comprehensive insights into the potential applications of FA as a sustainable and ecofriendly construction material, for making greener concrete composite, towards industrialize environmentally buildings today. (C) 2020 Elsevier Ltd. All rights reserved.