Additive fabrication of sinterable metallic parts via application of directed energy

What is claimed is: What is claimed is: 1 - 38 . (canceled) 39 . An additive fabrication device for producing sinterable metallic parts from a build material, the additive fabrication device comprising: a material deposition mechanism configured to deposit build material into a build region, wherein the build material comprises a powder including a metal and a polymer; and at least one energy source configured to direct energy onto the deposited build material to cause at least some of the polymer to adhere to other portions of the polymer and/or the metal. 40 . The additive fabrication device of claim 39 , wherein the material deposition mechanism includes a plurality of hoppers for separately holding the metal and the polymer and is configured to combine the metal and the polymer to produce the build material. 41 . The additive fabrication device of claim 39 , wherein the at least one energy source is configured to direct said energy onto the deposited build material to cause the at least some of the polymer to melt and adhere to the other portions of the polymer and/or the metal. 42 . The additive fabrication device of claim 39 , wherein the at least one energy source is configured to direct said energy onto the deposited build material to cause the at least some of the polymer to undergo heat-induced polymerization. 43 . The additive fabrication device of claim 39 , wherein the at least one energy source is configured to direct said energy onto the deposited build material to cause photopolymerization of the at least some of the polymer. 44 . The additive fabrication device of claim 39 , wherein the build material comprises metal particles coated with the polymer. 45 . The additive fabrication device of claim 39 , wherein the build material comprises metal particles and polymer particles. 46 . (canceled) 47 . The additive fabrication device of claim 39 , wherein the polymer comprises one or more thermoplastics. 48 . The additive fabrication device of claim 39 , wherein the polymer comprises a wax. 49 . The additive fabrication device of claim 39 , wherein the polymer comprises polypropylene, polyethylene and/or paraffin. 50 . The additive fabrication device of claim 39 , wherein the polymer comprise one or more copolymers. 51 . (canceled) 52 . (canceled) 53 . The additive fabrication device of claim 39 , wherein the additive fabrication device is configured to fabricate a sinterable metallic part through repeatedly depositing build material via the material deposition mechanism and directing energy onto the build material with the at least one energy source. 54 . The additive fabrication device of claim 39 , wherein the at least one energy source comprises a laser. 55 . The additive fabrication device of claim 54 , wherein the radiation produced by the laser comprises visible light. 56 . The additive fabrication device of claim 39 , wherein the at least one energy source comprises an x-ray beam source. 57 . The additive fabrication device of claim 39 , wherein the at least one energy source comprises an array of light sources. 58 . The additive fabrication device of claim 57 , wherein the array of light sources includes a Digital Light Processing (DLP) projector and/or a bar of LEDs. 59 . The additive fabrication device of claim 39 , wherein the at least one energy source comprises a plurality of energy sources configured to cause the at least some of the polymer to adhere to other portions of the polymer and/or the metal in locations in which the plurality of energy sources constructively interfere with one another. 60 . The additive fabrication device of claim 39 , wherein the at least one energy source comprises one or more projectors configured to project images through the build volume along different axes. 61 . The additive fabrication device of claim 39 , wherein the build material further comprises one or more flow improvers. 62 . (canceled) 63 . (canceled)