Litcius/Paper detail

Valorisation of Waste Glasses for the Development of Geopolymer Mortar—Properties and Applications: An Appraisal

Salmabanu Luhar, Ismail Luhar

2022Journal of Composites Science11 citationsDOIOpen Access PDF

Abstract

The current review paper studies the most noteworthy points in the fabrication of inorganic, eco-benign geopolymer mortar stressing the valorisation of Waste of Glasses (WG) about its properties and applications. Only a few studies are so far accessible on the topic, and therefore, more advanced studies in this respect will be valuable to construction industries and the research scientist, too. Mostly, the centre of attention on its valorisation with WG points a finger to its attitude to embrace the “conversion of wastes into best” strategy. Up until now, their character is neither well understood nor as embraced as OPC mortars. That is why this article reviews its confined literature with an aim to comprehend the valorisation of WG incorporation with geopolymer mortar, and it also reviews studies on its properties and applications, establishing it as a forthcoming constructive, productive, cost-effective, and sustainable large-scale construction material. The recommendations of this paper will be helpful for potential researchers on the topic. However, there are some challenges, such as curing impediments, occasionally practical antagonises of use, a restrained chain of supply, and a precondition for a sharp-eyed command of mixing design for preparing it for use in roadways to replace OPC counterparts in industry. When fabricated by employing abundantly available precursors, activators, and WG up to the standard superior control of varied properties, chiefly strength, durability, and the low-carbon footprints of alkali activators, GP mortars supplemented with WG are ground-breaking approaches to part of the prospect toolbox of sustainable and reasonably inexpensive construction materials. Finally, the paper identifies research work challenges, endorsement of utilisation, and most essentially the features of its properties and pertinent discussions for this promising new kind of valorised construction material.

Topics & Concepts

MortarValorisationGeopolymerCementitiousConstruction engineeringSustainabilityEngineeringArchitectural engineeringCivil engineeringWaste managementMaterials scienceFly ashCementBiologyMetallurgyComposite materialEcologyConcrete and Cement Materials ResearchRecycling and utilization of industrial and municipal waste in materials productionMagnesium Oxide Properties and Applications