Add to ORKGThe structural behaviour of steel fiber reinforced fly ash concrete under compression and flexure was studied by conducting tests on standard control specimens. The use of steel fibers in fly ash concrete improves its structural properties, especially the flexural tensile strength. Increasing the percentages of fly ash upto 30% and steel fibers upto 1.5% in concrete enhances the flexural tensile strength as well as the compressive strength. Finally, the use of fiber reinforced fly ash concrete is recommended as an alternative to fiber reinforced plain concrete
The cement industry has brought serious environmental pollution problems. In the background of ecolo...
Bearing in mind the increasing worldwide availability of pulverised fly ash (PFA) and rapidly decrea...
Bearing in mind the increasing worldwide availability of pulverised fly ash (PFA) and rapidly decrea...
This paper reports on a comprehensive study on the properties of concrete containing fly ash and ste...
In this experimental study, the influence of using fly ash, polypropylene fiber, and steel fiber in ...
Fly ash substitution to cement is a well-recognized approach to reduce CO2 emissions. Although fly a...
Cement is the most popular material used in construction the demand and cost of cement is increasing...
The present paper reports on the mechanical treatment of fly ash for improving the delayed reactivit...
Concrete is largely used due to the abundance of raw material, low manufacturing and maintenance cos...
This experiment research adopts ordinary portland cement with the strength grade of 42.5, mixed it w...
Now-a-days, there has been a significant increase in the use of fibres in concrete for improvin...
This paper shows the results of a study undertaken to enhance the property of Fly Ash concrete with ...
This paper investigates the influence of different types of steel fibers on the engineering properti...
The behavior of glued steel fibres in high strength concrete with size reduction properties of concr...
This study investigated the effects of steel fibers on the fresh and hardened properties, and heat o...
The cement industry has brought serious environmental pollution problems. In the background of ecolo...
Bearing in mind the increasing worldwide availability of pulverised fly ash (PFA) and rapidly decrea...
Bearing in mind the increasing worldwide availability of pulverised fly ash (PFA) and rapidly decrea...
This paper reports on a comprehensive study on the properties of concrete containing fly ash and ste...
In this experimental study, the influence of using fly ash, polypropylene fiber, and steel fiber in ...
Fly ash substitution to cement is a well-recognized approach to reduce CO2 emissions. Although fly a...
Cement is the most popular material used in construction the demand and cost of cement is increasing...
The present paper reports on the mechanical treatment of fly ash for improving the delayed reactivit...
Concrete is largely used due to the abundance of raw material, low manufacturing and maintenance cos...
This experiment research adopts ordinary portland cement with the strength grade of 42.5, mixed it w...
Now-a-days, there has been a significant increase in the use of fibres in concrete for improvin...
This paper shows the results of a study undertaken to enhance the property of Fly Ash concrete with ...
This paper investigates the influence of different types of steel fibers on the engineering properti...
The behavior of glued steel fibres in high strength concrete with size reduction properties of concr...
This study investigated the effects of steel fibers on the fresh and hardened properties, and heat o...
The cement industry has brought serious environmental pollution problems. In the background of ecolo...
Bearing in mind the increasing worldwide availability of pulverised fly ash (PFA) and rapidly decrea...
Bearing in mind the increasing worldwide availability of pulverised fly ash (PFA) and rapidly decrea...