Abstract
A good performance of reinforced concrete structures is ensured by the bond between steel and concrete, which makes the materials work together, forming a part of solidarity. The behavior of the bond between the reinforcing bar and the surrounding concrete is significant to evaluate the cracking control in serviceability limit state and load capacity in the ultimate limit state. In this investigation, the bond stresses between reinforcing bar and reactive powder concrete (RPC) was considered to compare it with that of normal strength concrete (NSC). The push-out test with short embedment length is considered in this study to evaluate the bond strength, bond stress-slip relationship, and bond stress-crack width relationship for reactive powder concrete members. The compressive strength of concrete, the nominal diameter of reinforcement, concrete cover, and amount of steel fibers and embedded length of reinforcement were considered as variables in this study.
 The test results show that the ultimate bond stress increased with increasing of the compressive strength of concrete, decreasing the nominal diameter of the reinforcing bar, increasing the concrete cover and increasing steel fiber content. In a bond stress-slip relationship, the NSC specimen shows a very short softening zone after reaching the peak point in comparisons with RPC specimen. In RPC, bond stress-slip relationship shows stiffer behavior when the steel fiber content was increased. RPC shows stepper softening zone due to the presence of steel fiber, and the absence of steel fiber cause push-out failure without descending part after peak point. Using NSC instead of RPC in anchorage between reinforcement and concrete, decrease the crack width produced due to radial tensile stresses through the push-out of reinforcing bar. In RPC, the absence of steel fiber, decrease the nominal diameter of the reinforcing bar, increase the concrete cover, decrease the embedded length of reinforcing bar cause push-out failure and vice versa cause splitting failure.
Highlights
الخلاصة الاداء الجيد للخرسانة المسلحة مضمون بالترابط بين خرسانة وحديد التسليح والذي يجعل المادة تعمل كقطعة واحدة .لمعرفة تصرف الترابط بين الخرسانة وحديد التسليح هو مهم للسيطرة على التشققات بالحدود الخدمية وبقوة التحمل بحدود المقاومة
Where; τult is the ultimate bond stress; Pult is the ultimate applied force; D is the nominal diameter of steel bar and ld is the embedded length of reinforcing bar in concrete. 9.1 Effect of Compressive Strength of Concrete As mentioned before, two types of concrete were adopted in this investigation to study the effect of the compressive strength of concrete on the bond strength between the reinforcement and concrete
The first specimen constructed from normal strength concrete (NSC) and the other from reactive powder concrete (RPC) with 0.5% steel fiber content
Summary
الخلاصة الاداء الجيد للخرسانة المسلحة مضمون بالترابط بين خرسانة وحديد التسليح والذي يجعل المادة تعمل كقطعة واحدة .لمعرفة تصرف الترابط بين الخرسانة وحديد التسليح هو مهم للسيطرة على التشققات بالحدود الخدمية وبقوة التحمل بحدود المقاومة. The mechanism of bonding is activated when the concrete cracks are presented and the cracks are crossed by conventional reinforcement. The latter links the two surfaces of the crack and their stress is distributed into the concrete by the mechanism of the bond. The bond stress-slip relationships can be obtained from the two well-known tests: pull-out or push-out. The concrete cover and mechanical properties of concrete (tension and compression) significantly affect on the bonding between the concrete and reinforcing bar. The characteristics of RPC are different than that of NSC, ultimate bond stress equation and development length of reinforcing bar definitely different. Through the push-out test, the bond stresses assumed to be uniformly distributed through the length of the reinforcing bar, and the force F which has been transmitted on the length ld and the circumference U relates to the bond stress τb
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