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Concrete is the most widely used construction material because of its mould ability into any required structural form and shape due to its fluid behaviour at early ages. Through compaction using vibration is normally essential for achieving workability, the required strength and durability of concrete. Inadequate compaction of concrete results in large number of voids. Affecting strength and long term durability of structures, self compacting concrete (SCC) provides a solution to these problems. And it is able to compact itself without any additional vibration. In this concrete, cement…mehr

Produktbeschreibung
Concrete is the most widely used construction material because of its mould ability into any required structural form and shape due to its fluid behaviour at early ages. Through compaction using vibration is normally essential for achieving workability, the required strength and durability of concrete. Inadequate compaction of concrete results in large number of voids. Affecting strength and long term durability of structures, self compacting concrete (SCC) provides a solution to these problems. And it is able to compact itself without any additional vibration. In this concrete, cement replacement with some material like flyash, metakaolin, ground granulated blast furnace slag (GGBS) etc. because to reduce 5-7% of CO2 emissions in cement and due to the curing of concrete large amount of water is required. To overcome the high demand of water it is needed to study self-curing concrete. In our experimental work the curing can be adopted to ensure the availability of water for the hydration of cement, mitigating the adverse effect of water loss to surroundings. To increase its water retention capacity it is concluded that the use of self-curing compounds in self compacting concrete.
Autorenporträt
Subhashish Dey and K. Nagarjuna are the Assistant Professor in Civil Engineering Department, Seshadri Rao Gudlavalleru Engineering College, Gudlavalleru, Andhra Pradesh India. Our research interest Substantial improvement in the strength properties of blended concrete mix was developed using fly ash, ground granulated blast furnace and nano silica.