Directed cooling for rotating machinery

What is claimed is: 1. A rotating machine comprising: a hub portion, wherein the hub portion comprises an outer circumference, an inner circumference, and a face; a ring portion, wherein the ring portion comprises an inner circumference that is metallurgically bonded to the outer circumference of the hub portion along a circumferential bond line; and a cooling channel formed on the face and configured to direct cooling air to the bond line, wherein the cooling channel extends from a radially inner location along the face to a radially outer location along the face, and wherein the cooling channel is configured as a recess formed into an outer surface of the face, wherein the ring portion further comprises an end, wherein the end comprises a circumferential flange extending outward from the end and positioned radially above the bond line, wherein the face of the hub portion includes a circumferential recess radially below the bond line, wherein the flange and the recess define a circumferential bond line channel along both the end and the face that distributes cooling air circumferentially along the bond line, wherein the radially outer location along the face is positioned radially below the circumferential bond line channel, and wherein, at the radially outer location along the face, the cooling channel joins fluidly with the bond line channel such that the cooling air is able to flow from the cooling channel into the bond line channel. 2. The rotating machine of claim 1 , wherein the cooling channel comprises a radially inner portion defined from the radially inner location along said face to a mid-point location along said face, and a radially outer portion defined from the mid-point location along said face to the radially outer location along said face, wherein the radially inner portion is angled against a direction of rotation of the rotating machine as the cooling channel extends radially outward. 3. The rotating machine of claim 2 , wherein the radially inner location along said face is positioned radially above and separated by a distance from the inner circumference of the hub portion. 4. The rotating machine of claim 1 , wherein the ring portion is a bladed ring comprising a plurality of blades extending radially outward from the ring portion. 5. The rotating machine of claim 4 , wherein the bladed ring and the hub portion together comprise an axial turbine or compressor. 6. The rotating machine of claim 4 , wherein the bladed ring and the hub portion together comprise a radial turbine or impeller. 7. The rotating machine of claim 6 , wherein the radially outer location along said face is positioned adjacent to a saddle portion of the radial turbine or impeller between blades of the radial turbine or impeller. 8. The rotating machine of claim 1 , wherein the hub portion is formed from a first alloy and the ring portion is formed from a second alloy, and wherein the first alloy and the second alloy are different.