Authors :
Sumit Sharma; Sumit Bhankhar
Volume/Issue :
Volume 6 - 2021, Issue 12 - December
Google Scholar :
http://bitly.ws/gu88
Scribd :
https://bit.ly/318dy6j
Abstract :
The use of factory-made derivatives improves
the boundary with aggregates while decreasing the
penetration of the mortar medium. The addition of
chemicals results in higher strength and a noteworthy
reduction in the amount of water added. To improve the
overall quality of the concrete, we use factory-made
derivatives such as residual ash, smoked silica, and steel
slag aggregates. In case of high-performance concrete,
such factory-made derivatives are used to improve
properties such as durability and strength. To examine
working execution of high-performance concrete,
factory-made derivatives such as silica dust, residual ash,
and furnace steel waste aggregates are used, which serve
as substitutes for cement, fine aggregate, and coarse
aggregate, respectively, which is the main focus of the
work.
Keywords :
High performance concrete, Residual ash, Furnace steel waste, Silica dust, bending strength
The use of factory-made derivatives improves
the boundary with aggregates while decreasing the
penetration of the mortar medium. The addition of
chemicals results in higher strength and a noteworthy
reduction in the amount of water added. To improve the
overall quality of the concrete, we use factory-made
derivatives such as residual ash, smoked silica, and steel
slag aggregates. In case of high-performance concrete,
such factory-made derivatives are used to improve
properties such as durability and strength. To examine
working execution of high-performance concrete,
factory-made derivatives such as silica dust, residual ash,
and furnace steel waste aggregates are used, which serve
as substitutes for cement, fine aggregate, and coarse
aggregate, respectively, which is the main focus of the
work.
Keywords :
High performance concrete, Residual ash, Furnace steel waste, Silica dust, bending strength