Add to ORKGThe effects of steel fiber strength on the mechanical properties of steel fiber reinforced concretes, such as compressive strength, modulus of elasticity, splitting tensile strength, flexural strength, fracture energy and characteristics length have been investigated within the scope of this study. Steel fibers with two different tensile strength of 1100 and 2000 MPa, and two different volume fractions of 20 and 60 kg/m3 were used in the production of normal and high strength concretes. Test results showed that the improvement of mechanical properties and fracture behavior by incorporation of high strength fibers is more significant in case of high strength concrete compared to normal strength concrete. This superior performance can be attr...
In recent years, considerable interest has developed in using fibers to increase the loadcarrying ca...
This paper investigates the possibility of combining steel fibers with different weight percentages ...
The shear failure in a concrete beam is a brittle type of failure. The addition of steel fibers in a...
The effects of steel fiber strength on the mechanical properties of steel fiber reinforced concretes...
Concrete without reinforcement is brittle which is intensified in high strength concrete. Fibers hav...
An experimental study was conducted to investigate the effect of hooked-end steel fibers on the flex...
The development and utilization of the high strength concrete in the construction industry have bee...
The study is based on designing the mix design of the concrete for the class named MR_DK_E1: C30/37,...
Steel fiber reinforced high strength concrete (SFRHSC) is concrete made of hydraulic cements contain...
In this paper the influence of commercialize steel fiber with properties of hooked end with 60 mm le...
This paper presents the results from an experimental program and an analytical assessment of the inf...
This paper describes an experimental study on the mechanical properties of high-strength fiber-reinf...
Mechanical properties of concretes substituted with steel fibres and its relative merits on the size...
Concrete is a brittle material which has a low tensile strength and a low tensile strain capacity. ...
Cost effective improvement of the mechanical performances of structural materials is an importantgoa...
In recent years, considerable interest has developed in using fibers to increase the loadcarrying ca...
This paper investigates the possibility of combining steel fibers with different weight percentages ...
The shear failure in a concrete beam is a brittle type of failure. The addition of steel fibers in a...
The effects of steel fiber strength on the mechanical properties of steel fiber reinforced concretes...
Concrete without reinforcement is brittle which is intensified in high strength concrete. Fibers hav...
An experimental study was conducted to investigate the effect of hooked-end steel fibers on the flex...
The development and utilization of the high strength concrete in the construction industry have bee...
The study is based on designing the mix design of the concrete for the class named MR_DK_E1: C30/37,...
Steel fiber reinforced high strength concrete (SFRHSC) is concrete made of hydraulic cements contain...
In this paper the influence of commercialize steel fiber with properties of hooked end with 60 mm le...
This paper presents the results from an experimental program and an analytical assessment of the inf...
This paper describes an experimental study on the mechanical properties of high-strength fiber-reinf...
Mechanical properties of concretes substituted with steel fibres and its relative merits on the size...
Concrete is a brittle material which has a low tensile strength and a low tensile strain capacity. ...
Cost effective improvement of the mechanical performances of structural materials is an importantgoa...
In recent years, considerable interest has developed in using fibers to increase the loadcarrying ca...
This paper investigates the possibility of combining steel fibers with different weight percentages ...
The shear failure in a concrete beam is a brittle type of failure. The addition of steel fibers in a...