Method for manufacturing a turbomachine component

The invention claimed is: 1. A turbomachine impeller comprising: a disc; a hub defining a central aperture and a first cavity; and a shroud forming an impeller eye and defining a second cavity; the hub, disc, and shroud collectively formed by a plurality of individual impeller members adjacently adjoined together and defining a respective interface between adjoining members, each individual impeller member comprising a respective disc portion forming part of the disc, a respective hub portion forming part of the hub, a respective shroud portion forming part of the shroud, and a respective blade portion extending from a front portion of the disc portion to the shroud portion, wherein the hub portion of each individual impeller member defines a respective cavity forming a segment of the first cavity and the shroud portion of each individual impeller member defines a respective cavity forming a segment of the second cavity; and the first cavity and the second cavity are each completely surrounded by a non-removable skin formed from a first metal powder material, and the first cavity and the second cavity are filled with a second metal powder material, the first metal powder material and the second metal powder material have different chemical compositions. 2. The turbomachine impeller of claim 1 , wherein the first metal powder material has an average grain size smaller than an average grain size of the second metal powder material. 3. The turbomachine impeller of claim 2 , wherein the average grain size of the first metal powder material is between 10 and 48 micrometers and the average grain size of the second metal powder material has between 50 and 100 micrometers. 4. The turbomachine impeller of claim 1 , further comprising an inlet surrounded by the impeller eye and an outlet, wherein each individual impeller member defines a respective leading edge at the impeller inlet and a trailing edge at the impeller outlet.