Valorization of geopolymer paste containing wastes glass
Journal: Research on Engineering Structures and Materials (Vol.7, No. 4)Publication Date: 2021-12-18
Authors : Ismail Luhar Salmabanu Luhar;
Page : 481-504
Keywords : Glass waste; Compressive strength; Microstructure; Geopolymer technology;
Abstract
“More industrial developments equals more generation of wastes". Wastes of glasses are blameworthy for the grave issue of pollution of environments chiefly in virtue of their profound accessibility and inconsistency of this stream. With mounting environmental pressure to trim them down and to recycle them as much as possible, the concrete industry has lent a hand to incorporate them with the manufacturing of inorganic, user, and eco-benevolent innovative Geopolymer construction composites. The current review paper studies the most striking points in the context of the production of waste glass integrated Geopolymer paste stressing its valorization in lights of its properties. More often than not, the center of attention here is to embrace the "conversion of wastes into wealth" strategy. That is why, this article reviews with an objective of its confined literature to comprehend its characteristics viz., workability, compressive strength, thermal, microstructure, etc. As a final point, the paper pigeonholes research work challenges, endorsement of potential utilization for this promising brand-new, green valorized Geopolymeric building material in order to establish it as a cost-effective, sustainable, durable construction material as a "futures toolkit”.
Other Latest Articles
- High performance fiber reinforced concrete – for repair in spillways of concrete dams
- Characterization of low-cost inkjet printed-photonic cured strain gauges for remote sensing and structural monitoring applications
- Macro-/micro-mechanical interlocking modification on the performance of hybrid friction stir spot welded aluminum/acrylonitrile butadiene styrene joints
- Development of specially reinforced magnesium composites prepared by squeeze casting process
- Fresnel calculations of double/multi-layer antireflection coatings on silicon substrates
Last modified: 2022-01-28 00:24:36