Bond stress-slip effect for simulation and experiment test of reinforced concrete beam on the pushover behavior

To design a structure is important to know the behavior of a reinforced concrete beam. Failure of structure beam found because the beam reinforcement structure does not set such as procedure design. That is why it is important to know the behavior of the beam structure resulting from the load design because it can help predict the strength of the structural beam and the comfort of the structure being worked on. Experiment tests and simulation modeling can be used to find out and predict the strength and comfort of the structure reinforced concrete beam due to the load received. Simulation VecTor2, one of the software modeling’s reinforced concrete beam, was used to predict the axial load, crack, and displacement of the reinforced concrete beam when applied to the shear force. This research considered the effect of the bond stress-slip of behavior reinforced concrete and allowed bonds stress-slip (0.139) for simulation VecTor2. Bonds stress-slip provide a substantial influence on the strength and hysteretic response of the reinforced concrete beam. That is why this research takes into consideration the effect of the bond stress-slip the reinforced concrete beam. Results of simulation VecTor2 modeling using the bond stress-slip effect would be checked with the experimental test result to observe all the behavior and precision of the test simulation.