Abstract
The flexural behavioral properties of ultra high performance concrete (UHPC) low-profile T-beams reinforced with a combination of steel fibers and steel reinforcing bars were investigated in this paper. Five large scale T-beams were tested and analyzed regarding their deflection, ductility, strain, curvature, load capacity and crack development. The experimental variables include the reinforcement ratio, the slenderness (length to diameter ratio) of the fiber reinforcements, and the fiber type. The experiments showed that all specimens exhibit flexural failure with the yielding of steel bars and excessive expansion of flexural crack, and the compression zone in the reinforced UHPC low-profile T-beam is not crushed because of the ultra high compressive strength and area of UHPC. In addition, it was concluded that using hooked-end fibers can effectively increase the specimen’s durability-based cracking load in comparison to straight fibers of same slenderness, whereas the reinforcement ratio and the slenderness of the fibers have little influence on this. Increasing the reinforcement ratio and using hooked-end instead of straight fibers increase the load capacity and bending stiffness of the specimen, as well as reduces the crack width at comparable applied load. A model was established to compute the ultimate capacity of UHPC low-profile T-beams and the prediction agrees well with the experimental results in the present and published investigations.
Highlights
Ultra high performance concrete (UHPC) is characterized by high particle packing density and low matrix porosity achieved by a low water-to-cementitious material ratio
Randl et al (2013) performed the study on the flexural performance of ultra high performance concrete (UHPC) beams reinforced with different combinations of fibres (0% and 2% by volume) and high grade steel bars, and noted that the incorporation of 2% by volume of steel fibers increases the load bearing capacity by about 15% on average
Increasing the load beyond the elastic limit at about 40 kN resulted in the sufficient development of micro-cracks in the UHPC
Summary
Ultra high performance concrete (UHPC) is characterized by high particle packing density and low matrix porosity achieved by a low water-to-cementitious material ratio (generally below 0.25). Randl et al (2013) performed the study on the flexural performance of UHPC beams reinforced with different combinations of fibres (0% and 2% by volume) and high grade steel bars, and noted that the incorporation of 2% by volume of steel fibers increases the load bearing capacity by about 15% on average. They concluded that the combination of steel fibers and high grade steel is promising. Kamal et al (2014) compared the effect of steel fiber and polypropylene fiber on the flexural behavior of UHPC beams and indicated that using fibers (steel fiber or polypropylene fibers) could enhanced the behaviors of the tested beams
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