Abstract
This study proposed a prediction formula for the torsional strength enabling to reflect the tensile strength of ultra high performance concrete (UHPC) beams based upon the thin-walled tube theory. The remarkable ductile behavior of UHPC can also be attributed to the steel fiber reinforcement. This feature must be considered to provide rational explanation of the torsional behavior of UHPC structures. In this study, the proposed torsional design adopts a modified thin-walled tube theory so as to consider the tensile behavior of UHPC. And torsion test was conducted on thin-walled UHPC box beams to validate the proposed formula through comparison of the predicted torsional strength with the experimental results. The comparison of the predicted values of the cracking torque and torsional moment resistance with those observed in the torsional test of UHPC verified the validity of the design method. The contribution of the steel fibers to the torsional strength and cracking load was larger than that of the stirrups, but the stirrups appeared to contribute additionally to the torsional ductility. Accordingly, it is recommended that design should exploit effectively the contribution of the steel fiber rather than arrange a larger number of stirrups in UHPC structures subjected to torsion.
Highlights
Ultra high performance concrete (UHPC) is an advanced cementitious composite exhibiting low permeability in which the matrix with high density and strength is reinforced by steel fibers [1]-[4]
The torsional moment reduced with the acceleration of the pullout of the steel fibers and failure occurred as shown in Figure 10(b) with the sudden widening of the crack width of the principal inclined cracks
This process can be explained by the increased resistance to torsional moment provided by the bridging effect of the steel fibers from the initiation of cracks to the ultimate loading stage and, the loss of this resistance after the ultimate load due to the reduction of
Summary
Ultra high performance concrete (UHPC) is an advanced cementitious composite exhibiting low permeability in which the matrix with high density and strength is reinforced by steel fibers [1]-[4]. (2015) Torsional Behavior Design of UHPC Box Beams Based on Thin-Walled Tube Theory. The structures applying UHPC present often more complicated shapes and reduced cross sectional dimensions than when applying NSC. This situation stresses the importance of the torsional design of UHPC structures
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