Precipitation of coherent Ni₂(Cr, W) superlattice in an Ni-Cr-W superalloy

It is demonstrated that a nanometer-sized Ni₂(Cr, W) superlattice with a Pt₂Mo-type structure can precipitate in an Ni-Cr-W alloy by means of a simple aging treatment at 550 °C. The dark-field image of short-range order domains has been found for the first time experimentally. The mechanism of short-range order to long-range order transformation has been revealed based on transmission electron microscopy result and static concentration waves theory and found to be continuous ordering. The randomness of the transformation of static concentration waves leads to equiprobable occurrence of the different variants. The transformation of short-range order to long-range order gives rise to the Pt₂Mo-type Ni₂(Cr, W) superlattice. The interfaces between Ni₂(Cr, W) and Ni-based matrix and the different variants of Ni₂(Cr, W) have been investigated by high resolution transmission electron microscopy. The results reveal that the interfaces between Ni₂(Cr, W) and surrounding matrix are coherent at the atomic scale.