Abstract
Nowadays the environmental health is considered to be the most important topic for concern. The emission of CO2 and other harmful gases to the atmosphere become a serious problem and the root cause of environmental alteration. In other ways, the production of cement is reducing continuously due to the unavailability of resources and a large amount of carbon footprint. To overcome all these problems the low CO2 emitting and alumina silicate rich sources are used as binders instead of ordinary cement. The paper reviews all the recent and experimental works done by the researchers in order to study the physical and mechanical properties of Geopolymer Concrete with different mixtures of binders and additives introduced for increasing the strength and durability. The use of different industrial by-products in concrete development is encouraged and the workability, effects of temperature variation, use of admixture, fibers and effects of water- binder ratio for the Geopolymer Concrete are examined. Reviews indicate that the compressive strength of the Geopolymer Concrete with additional hooked end steel fibers are more than that of controlled Geopolymer Concrete mix.
Highlights
The process of reactions takes place between monomer molecules and reacting chemical to form three-dimensional chains is commonly stated as polymerization
Rambabu (2017) [4] used Fly ash, GGBS, and OPC in a confined ratio to study the performance of glass fiberreinforced Geopolymer Concrete (GC)
The geopolymer concrete achieves the highest workability during the slump test which is 122 mm – 145 mm [16,20,21,24]
Summary
The process of reactions takes place between monomer molecules and reacting chemical to form three-dimensional chains is commonly stated as polymerization. Geopolymers are the inorganic materials that are formed when a base material rich in alumina and silica reacts with a very strong alkaline solution, termed as geo-polymerization. Thence the scarcity of limestone will affect the manufacturing of the cement being the raw material brutally To overcome this drastic situation many of the scientists and researchers found different ways and opportunities by using locally available waste by-products from industries having pozzolanic properties like cement and partially or completely replacing them with cement content in concrete. Another serious reason behind cement replacement is to reduce carbon dioxide emissions to the atmosphere to dissuade the global warming problem worldwide
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