Reducing the required amount of steel reinforcement is a main issue for saving cost. In this experimental study, high-strength materials were used for reducing amount of steel reinforcement in flexural members. Six beams were cast and tested under flexure. The yield strength of longitudinal steel reinforcement, compressive strength of concrete, and reinforcement ratio are considered to investigate their effect on load carrying capacity, load-displacement behavior, and ductility of the tested beams. Results demonstrated that a beam with concrete strength of 60MPa and with steel reinforcement with yield strength of 600MPa is more profitable compared to other beams in the viewpoint of load carrying capacity as well as ductility. Due to lower reinforcement ratio, the deflection for the beam reinforced with yield strength of 600MPa was greater than that of other beams but was within the amount presented in the KCI specifications for serviceability check. It is found that the equation for effective moment of inertia for calculation of deflection underestimated the actual deflection of the beam with concrete strength of 60MPa. Therefore, it is need to be modified.