Title:
Comparative Study of Predictions of Flexural Strength of Steel Fiber Concrete
Author(s):
H. V. Dwarakanath and T. S. Nagaraj
Publication:
Structural Journal
Volume:
88
Issue:
6
Appears on pages(s):
714-720
Keywords:
compressive strength; concrete slabs; fiber reinforced concrete; flexural strength; metal fibers; prisms; tensile strength; Structural Research
DOI:
10.14359/1262
Date:
11/1/1992
Abstract:
Several methods are available for predicting flexural strength of steel fiber concrete composites. In these methods, direct tensile strength, split cylinder strength, and cube strength are the basic engineering parameters that must be determined to predict the flexural strength of such composites. Various simplified forms of stress distribution are used in each method to formulate the prediction equations for flexural strength. In this paper, existing methods are reviewed and compared, and a modified empirical approach is developed to predict the flexural strength of fiber concrete composites. The direct tensile strength of the composite is used as the basic parameter in this approach. Stress distribution is established from the findings of flexural tests conducted as part of this investigation on fiber concrete prisms. A comparative study of the test values of an earlier investigation on fiber concrete slabs and the computed values from existing methods, including the one proposed, is presented.