Search engine for discovering works of Art, research articles, and books related to Art and Culture
Javascript must be enabled to continue!
A study on hardened parameters of self-compacting concrete using silica fume
View through CrossRef
The main focus of this study is to examine how silica fume, a by-product from industrial processes, performs when used in concrete with varying mix proportions. As the demand for cement continues to grow, its large-scale production has triggered environmental issues, overuse of natural resources, and rising costs. To help overcome these challenges, the study looks into the use of alternative materials like industrial waste. Silica fume was selected for partial replacement of both cement and sand in several concrete mixes. Due to its high pozzolanic activity and fine, non-crystalline silica content, it has the ability to enhance the mechanical strength of concrete. To assess its influence, concrete cubes and cylinders were prepared with replacement levels of 0%, 8%, 12%, and 16%. Testing showed that compressive strength improved as the silica fume percentage increased, with the best results at 12%. Beyond this point, strength gains began to reduce, suggesting that 12% is the optimal level for improving concrete performance using silica fume.
Title: A study on hardened parameters of self-compacting concrete using silica fume
Description:
The main focus of this study is to examine how silica fume, a by-product from industrial processes, performs when used in concrete with varying mix proportions.
As the demand for cement continues to grow, its large-scale production has triggered environmental issues, overuse of natural resources, and rising costs.
To help overcome these challenges, the study looks into the use of alternative materials like industrial waste.
Silica fume was selected for partial replacement of both cement and sand in several concrete mixes.
Due to its high pozzolanic activity and fine, non-crystalline silica content, it has the ability to enhance the mechanical strength of concrete.
To assess its influence, concrete cubes and cylinders were prepared with replacement levels of 0%, 8%, 12%, and 16%.
Testing showed that compressive strength improved as the silica fume percentage increased, with the best results at 12%.
Beyond this point, strength gains began to reduce, suggesting that 12% is the optimal level for improving concrete performance using silica fume.
Related Results
Combined Impact of PolypropyleneFibers and Silica Fume on M30 Concrete Grade
Combined Impact of PolypropyleneFibers and Silica Fume on M30 Concrete Grade
This research project investigates the combined influence of silica fume and polypropylene fibers on the mechanical properties of M30 grade concrete. Silica fume, known for its abi...
Silica Fume – An Admixture for High Quality Concrete
Silica Fume – An Admixture for High Quality Concrete
By addition of some pozzolanic materials, the various properties of concrerte viz, workability, durability, strength, resistance to cracks and permeability can be improved. Silica ...
Silica Fume, Bond Strength, and the Compressive Strength of Mortar
Silica Fume, Bond Strength, and the Compressive Strength of Mortar
ABSTRACTThe strength and strain-rate sensitivity of cement paste and mortar is studied as a function of water-cementitious material ratio (W/C) and silica fume content. W/C's of 0....
Influence of pozzolan on the plastic shrinkage cracking of concrete
Influence of pozzolan on the plastic shrinkage cracking of concrete
Concrete at its fresh state allows for the occurrence of plastic shrinkage cracks due to the excessive and rapid evaporation rate of water and the inability or lack of bleed water ...
Low Cost Ultra-High Performance Fiber Reinforced Concrete (UHPFRC) with Flash Metakaolin
Low Cost Ultra-High Performance Fiber Reinforced Concrete (UHPFRC) with Flash Metakaolin
Ultra-High Performance Fiber Reinforced Concrete (UHPFRC) presents remarkable mechanical and durability properties. Concretes can be considered as UHPFRC when compressive strength ...
Analyzing the Impact of Supplementary Cementitious Material and Polypropylene Fiber on the Fresh, Mechanical Properties, and Acid Attack of Quaternary Blended Self Compacting Concrete
Analyzing the Impact of Supplementary Cementitious Material and Polypropylene Fiber on the Fresh, Mechanical Properties, and Acid Attack of Quaternary Blended Self Compacting Concrete
Self-Compacting Concrete (SCC) is defined as concrete that has an ability to flow under its own weight, to fill the required space or formwork completely and to produce a dense and...
Effects of active mineral admixture on mechanical properties and durability of concrete
Effects of active mineral admixture on mechanical properties and durability of concrete
Abstract
The purpose of this study is to figure out the effects of the active mineral admixture on the mechanical properties and the durability of the concrete. In t...
Effect of the moisture states of artificial fly ash aggregate as a partial river sand replacement on bulk density and mechanical strengths of hardened concrete
Effect of the moisture states of artificial fly ash aggregate as a partial river sand replacement on bulk density and mechanical strengths of hardened concrete
In this study, artificial fly ash aggregate (FAA) under oven-dry (OD) and natural (N) states was employed for partially replacing natural river sand (RS) to investigate effect of m...