Rare-Earth Metals in Nickel Aluminide-Based Alloys: III. Structure and Properties of Multicomponent Ni_3Al-Based Alloys

摘要

The possibility of increasing the life of heterophase cast light Ni_3Al-based superalloys at temperatures higher than 0.8T_m of Ni_3Al is studied when their directional structure is additionally stabilized by nano-precipitates, which form upon additional alloying of these alloys by refractory and active metals, and using special methods for preparing and melting of an alloy charge. The effect of the method of introducing the main components and refractory reaction-active and surface-active alloying elements into Ni_3Al-based cast superalloys, which are thermally stable natural composite materials of the eutectic type, on the structure-phase state and the life of these alloys is studied. When these alloys are melted, it is necessary to perform a set of measures to form particles of refractory oxide cores covered with the β-NiAl phase and, then, γ'_(prim)-Ni_3Al phase precipitates during solidification. The latter phase forms the outer shell of grain nuclei, which provides high thermal stability and hot strength of an intermetallic compound-based alloy. As a result, a modified structure that is stabilized by the nanoprecipitates of nickel and aluminum lanthanides and the nanoprecipitates of phases containing refractory metals is formed. This structure enhances the life of the alloy at 1000 deg C by a factor of 1.8-2.5.