Title:
Effect of Steel Fiber Content on Behavior of Concrete Beams with and without Stirrups
Author(s):
Dipti Ranjan Sahoo and Abhimanyu Sharma
Publication:
Structural Journal
Volume:
111
Issue:
5
Appears on pages(s):
1157-1166
Keywords:
beams; cracking; ductility; fiber-reinforced concrete; flexural failure; shear failure; shear reinforcement; steel fiber-reinforced concrete
DOI:
10.14359/51686821
Date:
9/1/2014
Abstract:
An experimental study is conducted on a series of 12 reinforced concrete (RC) and steel fiber-reinforced concrete (SFRC) beam specimens to study their shear and flexural strengths, failure mechanisms, and ductility response under monotonic loadings. The main parameters varied in this study are the concrete compressive strength, percentage of longitudinal reinforcement, fiber content, shear span-depth ratio, and amount of transverse stirrups. End-hooked steel fibers of volume fraction ranging from 0.5 to 1.5% are used in the specimens. Test results showed that the addition
of steel fibers enhanced the flexural and shear strengths and the ductility of the flexural members. The addition of a minimum of 0.5% fiber content in the beams with shear stirrups changed the mode of failure from brittle to ductile, whereas a minimum fiber content of 1.0% is required to achieve the ductile response of the beams without shear stirrups. Using a curve-fitting method on the available test data, simple expressions are also derived to predict the shear strengths of medium- to large-scale flexural members with varying fiber contents.