Abstract:In order to refine the dendrite and eliminate the segregation of CuNiMnFe alloy, the molten CuNiMnFe alloy was modified by trace boron addition. The effect of the modification treatment on microstructures and properties of the CuNiMnFe alloy was studied, the microstructure and phase were characterized by the scanning electron microscope, transmission electron microscope and energy dispersive spectrum, and the hardness and tensile strength of alloys were measured on Brinell hardness tester and universal material testing machine, respectively. The results show that B addition has a significant effect on the microstructures of CuNiMnFe alloy. In the range of 0-0.15%B (mass fraction), the increased boron addition can refine the dendrite microstructure, reduce the secondary dendrite arm spacing (SDAS) and the amount of eutectic β phase, while the precipitation of the secondary β and nail-head γ phase inside the dendrites increase. At 0.10%B, SDAS is the least, the lamellar eutectic β phase almost disappears, and the obvious secondary β phase and nail-head γ phase inside the dendrite. With the boron adding, the as-cast hardness and aged hardness of the CuNiMnFe alloy increase at first, and then decrease. The as-cast CuNiMnFe alloy with 0.1%B addition has the peak hardness, and the aged peak hardness can remain the maximum hardness value of HB380. The tensile strength of aged CuNiMnFe alloy can reach up 1 130 MPa.

Key words: CuNiMnFe alloy; boron; dendrite; modification; precipitated phase