Abstract:In order to improve the performance of WC based steel bonded carbide, the effects of Ni3Al content on microstructure and properties of WC-Fe(Cr, Mo) steel bonded carbide were explored based on thermodynamic calculation. The alloys with different Ni3Al contents (0, 0.5%, 1.0%, 1.4%, mass fraction) were prepared by liquid phase sintering method through adding Al with the form of Ni3Al prealloyed powders. The liquidus temperature, phase composition and microstructure of alloys were analyzed by the differential scanning calorimetry (DSC), X-ray diffractometer (XRD), scanning electron microscope (SEM) and metalloscope, respectively. The effects of Ni3Al content on the mechanical and magnetic properties of alloys were investigated. The results show that, with the increase of Ni3Al content, γ-Fe content increase, due to the improved stabilities of austenite through the solution of Ni element. The driving force for the nucleation of the γ-binder precipitating from liquid phase at 1250 ℃ increases, which refines the grains, NiAl precipitation in the binder phase increases. The hard phases are mainly WC and Fe3W3C, with the increase of Ni3Al content, more C element dissolves in γ-Fe binder phase, which leads to a less precipitation of Fe3W3C, refined WC grains are distributed more dispersedly. Above all, with the increase of Ni3Al content, the density of alloys decreases slightly. The magnetic saturation of binder phase decreases while coercive force increases. The hardness of alloys raises while the transverse rupture strength of alloys first decreases, then increases. Both the hardness and transverse rupture strength reach maximum value when the Ni3Al content is 1.4%.

Key words: WC based steel bonded carbide; Fe-Ni-Al binder phase; microstructure; property