Abstract
The present generationof concrete, known as geopolymer concrete (GPC), is created through the polymerization of aluminosilicate minerals with an alkali-activated solution (AAS). The normal hydration process has no bearing on GPC development. It defends the atmosphere from CO2 emissions caused by cement-making procedures. Making GPC self-compacting, also known as self-compacting Geopolymer concrete, allows for the avoidance of the dynamic compaction needed for the compaction process of GPC. The effect of numerous factors, including fibers, molarity, binding materials, and superplasticizer on the mechanical characteristics and workability of SCGC, as well as any gaps and potential future applications, are critically reviewed in this research. In addition to having fewer negative effects on the environment, SCGC also better utilizes waste and conserves resources than ordinary concrete, according to the research currently available. Despite its enormous potential, the lack of knowledge about the different factors that influence SCGC creation is the cause of its limited utilization. The current publication focuses on the characteristics of SCGC that make it widely accepted, as well as the variables influencing SCGC creation.
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