Abstract A trend of strengthening accompanied by a loss of ductility is generally true for metals and alloys processed in various methods for hundreds years. In the future, increasing the strength of metals and alloys without sacrificing other properties including ductility is critical for their competitiveness. Successful strategies of simultaneously strengthening and toughening for copper alloys were presented. Taking cast Cu–10Sn–2Zn–1.5Fe alloy (weight percent) for example, which had improved tensile strength of 483 MPa, and dramatic uniform elongation of 29.3%, respectively, at room temperature, in contrast to conventional cast Cu–10Sn–2Zn tin bronze alloy. It was proved that the strategies originated mainly from refined and nanostructured grains of in-situ tin bronze nanocomposite fabricated by adding minor iron and solidifying under convective condition, with large number of semi-coherent iron-rich nanoparticles (an average size of 2–10 nm) embedded in a micrometer-sized grain with size of 20–60 μm. Besides the refined and nanostructured grains, the reduction of brittle tin-rich phase on the boundary, the existence of semi-coherent interface between the nanoparticle and the copper matrix, were also discussed to contribute to the improvement of tensile strength and ductility for this modified tin bronze, yet they are related to the formation of nanostructured grain more or less. The excellent comprehensive mechanical properties can be achieved in a general industrial application.