The damages of special concentrically braced frame (SCBF) system have been commonly observed in the past earthquakes. The primary failure occurred in the braces. Braces are not only the structural members in SCBF to provide lateral stiffness and strength but also one of the most important parts to dissipate energy by their extensive nonlinear behavior. Under cyclic deformation, the braces show a few disadvantages including low buckling strength in compression and low fatigue life which results in premature failure and lack of toughness for the braces. In some cases, the failure of braces also causes damages to the brace to framing connections leading to torsional instability of beams, columns and frames. In this research, we apply reinforcement to the conventional brace members by adding steel plates or reducing section areas to widen the energy dissipation range of the braces. This approach of reinforced brace section will reduce the strain range of the braces and therefore increase their fatigue life. Eight specimens have been tested and all of them are wide-flange section with three types of reinforcement options. The first type is unreinforced section (UR). The second type is the section with reduced flange width and reinforced web (W series). The third type is the section with reinforced flange (F series). Based on the test observations and data analyses, the performance parameters of different specimens including the hysteretic behavior, strength (yielding strength, buckling strength and maximum tensile strength), energy dissipation, out-of-plane displacement, curvature of mid segment (700mm), etc., have been discussed. The results show that series F increases the strength of the braces efficiently, but the energy dissipation capacity is not obviously increased. Differently, series W increase the strength of the braces less efficiently, but the energy dissipation capacity is obviously increased.