Abstract
Ultrahigh-performance concrete (UHPC) and high-strength concrete (HSC) are currently widely used because of their distinct superior properties. Thus, a comprehensive comparison of the flexural behavior of UHPC and HSC beams is presented in this study. Nine UHPC beams and three HSC beams were subjected to pure bending tests to investigate the effect of various reinforcement ratios and steel fiber volume contents on the cracking and failure patterns, load-deflection behavior, ductility, and flexural toughness of these beams. The addition of steel fibers in the UHPC improved the energy absorption capacity of the beams, causing the UHPC beams to fail via rebar fracture. The deflection and curvature ductility indices were determined and compared in this study. The ductility indices of the HSC beam tended to decrease sharply as the rebar ratio increased, whereas those of the UHPC beam did not show a clear trend with respect to the rebar ratio. In addition, a comparison between the results in this study and the results from previous studies was performed. In this study, the addition of steel fiber contents up to 1.5% in UHPC increased the load capacity, ductility, and flexural toughness of the UHPC beams, whereas the addition of a steel fiber content of 2.0% did not significantly increase the ductility or flexural toughness of the UHPC beams.
Highlights
Ultrahigh-performance concrete (UHPC) and high-strength concrete (HSC) are advanced materials that are progressively gaining wider application in the construction industry [1,2,3,4]
These results show that the normalized flexural toughness of the UHPC and HSC beams was affected by increasing the rebar ratio
This study investigated the flexural behavior of UHPC beams with various rebar ratios and steel fiber volume contents
Summary
Ultrahigh-performance concrete (UHPC) and high-strength concrete (HSC) are advanced materials that are progressively gaining wider application in the construction industry [1,2,3,4]. UHPC and HSC can provide many advantages to satisfy some special or architectural requirements because of their high strength, abrasion resistance, durability, and low permeability. The differences between UHPC and HSC mix designs lead to distinct material properties and structural behaviors. As reported in some previous studies [7,8,9], increasing the number of rebars in HSC beams does not always improve the ductility of the beams. Rashid et al [10] carried out bending tests on various reinforced concrete beams with a wide range of concrete strengths and reinforcement ratios
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