Cold spray powder feeders with in-situ powder blending

What is claimed is: 1. A powder feeder for a high-pressure cold spray system, comprising: a rotatable drum body having a plurality of metering apertures; a drum rider for contacting an interior surface of the drum body as it rotates, the drum rider being fixed with respect to the drum body, wherein the drum rider has an internal blow down chamber coupled to a carrier gas tube; an outlet tube opposite the internal blow down chamber and fixed with respect to the drum body, wherein rotation of the drum body successively positions the metering apertures between the blow down chamber and the outlet tube; a drum guide having a rotation surface, the rotation surface contacting and supporting an outer surface of the drum body as the drum rotates; a housing surrounding the drum body; and a support structure coupled to the housing, wherein the support structure is configured and adapted for supporting the housing such that the drum body rotates for blending material disposed therein, wherein the housing is a pressure vessel configured and adapted for sustaining an internal pressure of at least 800 pounds per square inch (5.5 MPa). 2. A powder feeder as recited in claim 1 , further comprising a heating element for drying and/or degassing material disposed within the drum body. 3. A powder feeder as recited in claim 2 , further comprising a utility port for applying a vacuum and/or a nitrogen purge to material located in an interior of the drum body. 4. A powder feeder as recited in claim 1 , wherein the support structure supports the housing such that the drum body rotates about a rotation axis oblique with respect to vertical for tumbling material in the drum body. 5. A powder feeder as recited in claim 1 , wherein the rotation axis is about a rotation axis oblique with respect to vertical. 6. A powder feeder as recited in claim 1 , wherein the drum body has a circumferential wall with an opening on a first end and the plurality of metering apertures are located on an opposed second end. 7. A powder feeder as recited in claim 6 , wherein the metering apertures are offset from the rotation axis by a common radial distance. 8. A powder feeder as recited in claim 1 , further including a tapered outlet chamber defined within the drum rider and configured such that cyclically places carrier gas tube in fluid communication with the outlet tube through the blow down chamber and outlet chamber through sequential adjacent metering apertures. 9. A powder feeder as recited in claim 1 , wherein the drum rider is coupled to the housing through a loosely fitting guide rod. 10. A powder feeder as recited in claim 9 , wherein the guide rod includes a resilient member configured to press the drum rider against the drum body. 11. A powder feeder as recited in claim 1 , wherein the drum guide has an annular shape and is configured and adapted for sealing an interior of the drum body from a portion of the housing interior. 12. A powder feeder as recited in claim 1 , wherein the drum guide is a first drum guide and further including a second drum guide disposed between the housing and drum body and configured for maintaining an axial position of the drum body along its rotation axis. 13. A powder feeder as recited in claim 11 , wherein the drum guide has an annular shape and an L-shaped profile. 14. A powder feeder as recited in claim 12 , further comprising a third drum guide disposed between the housing and the drum body and configured for maintaining an axial position of the drum body.