High-rise reinforced concrete buildings can be built with the aids of the structural walls. In these cases, ductile coupled shear walls, an efficient lateral-force-resisting system, are usually placed at the core of tall buildings. As compared to the traditional shear wall system, this coupled wall system satisfies better the demand of space requirement. The ductility of coupled shear wall requires good deformation capacity of the coupling beams. According to previous researches, adequate shear strength is indispensable for the development of the ductility of coupling beams. Therefore this research focuses on the effects of shear strength and deformation capacity of coupling beams with the variation of the section design, property of material and test method. Eight full-scale specimens were tested to study the effects of behavior of coupling beams under different property of material (yielding stress of transversal steel), steel-ratio, diagonal bar-ratio and axial constraint. Test results indicate that the increase of the yielding stress of transversal steel will not affect the behavior of coupling beams obviously. Meanwhile, it also indicates that lower steel-ratio can reduce diagonal bar-ratio effectively to improve the construction difficulty. The use of higher diagonal bar-ratio can significantly improve the deformation capacity of coupling beams. Moreover, axial constraint will make the shear strength of coupling beams significantly higher, but at the same time, it will also decrease the deformation capacity of coupling beams.