Multi-material powder bed fusion 3-D printer

What is claimed is: 1. A three-dimensional (3D) printer, comprising: a build plate to support a build piece; a plurality of containers, each container including a slurry including a different print material; one or more nozzles, each nozzle coupled to one or more of the plurality of containers; at least one energy source; and a controller configured to control the one or more nozzles to deposit a layer by selectively depositing, by spraying, one or more of the different print materials in one or more regions of the layer based on a 3-D data model of the build piece, and to control the at least one energy source to selectively sinter at least a portion of the one or more different print materials in the one or more regions of the layer to produce the build piece, wherein at least one of the one or more nozzles rotates such that the layer is selectively deposited from an angle with respect to a vertical axis. 2. The 3D printer of claim 1 , wherein the one or more nozzles includes a plurality of nozzles arranged on different portions of a print head that moves in accordance with instructions from the controller. 3. The 3D printer of claim 1 , wherein the one or more nozzles includes a plurality of nozzles, the 3D printer further comprising a plurality of print heads, wherein, one or more of the plurality of nozzles are built into each of the plurality of print heads and the plurality of print heads move in accordance with instructions from the controller. 4. The 3D printer of claim 1 , wherein at least one of the plurality of containers comprises a slurry including a solvent in which the different print material is present; and the slurry is deposited in response to the controller's direction. 5. The 3D printer of claim 4 , wherein the solvent comprises benzene. 6. The 3D printer of claim 4 , further comprising a heating element configured to vaporize the solvent prior to sintering the one or more different print materials. 7. The 3D printer of claim 4 , wherein the controller is configured to evaporate the deposited solvent by heating the build plate to a designated temperature. 8. The 3D printer of claim 1 , wherein at least one of the plurality of containers contains a powder, the powder comprising the different print material. 9. The 3D printer of claim 1 , wherein the different print materials comprise an alloy. 10. The 3D printer of claim 1 , wherein at least one of the different print materials comprises an elementary metal. 11. The 3D printer of claim 1 , wherein the deposition of a layer comprises: directing the one or more nozzles to deposit designated portions of the different print materials into the one or more of the regions to produce a layer of material having different properties at different portions. 12. The 3D printer of claim 11 , wherein the controller is directed to produce the build piece comprising an alloy having a composition that differs in different areas. 13. The 3D printer of claim 12 , wherein the difference in composition is continuous. 14. The 3D printer of claim 1 , wherein the at least one energy source comprises a laser. 15. The 3D printer of claim 1 , wherein the at least one energy source comprises an electric arc. 16. The 3D printer of claim 1 , wherein the deposition of a layer comprising the one or more different print materials comprises varying amounts of the different print materials as a function of time, position, or both. 17. A three-dimensional (3-D) printer, comprising: a chamber having a build plate and at least one energy source; a plurality of cartridges, each cartridge comprising a slurry having a different print material; at least one print head comprising a plurality of nozzles, each nozzle coupled to one of the plurality of cartridges; and a controller configured to direct the at least one print head to selectively deposit, by spraying, the one or more different print materials layer-by-layer in one or more regions of each layer based on a 3-D data model of a build piece and to selectively sinter the one or more different print materials using the at least one energy source, wherein at least one of the one or more nozzles rotates such that the layer is selectively deposited from an angle with respect to a vertical axis. 18. The 3-D printer of claim 17 , wherein the controller is further configured to deposit the different print materials in amounts that result in different alloys of an identical substance in different regions of at least one layer or different regions of the build piece. 19. The 3-D printer of claim 17 , wherein the different alloys change as a function of position on the layer, on the build piece, or both. 20. The 3-D printer of claim 19 , wherein the difference is one of discrete or continuous. 21. The 3-D printer of claim 17 , wherein the different print material in at least one cartridge is present in a slurry including a solvent. 22. The 3-D printer of claim 21 , further comprising a heating element configured to vaporize the solvent prior to sintering the one or more different print materials. 23. The 3D printer of claim 1 , wherein the deposition of a layer comprises varying the percentage of the one or more different print materials deposited in the slurry. 24. The 3D printer of claim 1 , wherein the deposition of a layer comprises depositing one or more of the different print materials in an overlapping portion in a region to obtain a desired proportion of a metal alloy when the different print materials are sintered. 25. The 3D printer of claim 17 , wherein each cartridge is configured to dynamically connect to a reservoir.