Particle agglomeration for additive metal manufacturing

1 .- 69 . (canceled) 70 . A three-dimensional object comprising: a plurality of layers, each layer defining a respective two-dimensional pattern; particles dispersed in each layer, the particles formed from at least a first material and a different second material; and a binder system binding the particles in each layer to both one another and to one or more adjacent layers, the three-dimensional object sinterable to form a brown part having a microstructure of first material distributed in a matrix of second material. 71 . The three-dimensional object of claim 70 , wherein the first material and the second material are alloyable with one another. 72 . The three-dimensional object of claim 70 , wherein the first material is first metallic particles and the second material is second metallic particles, the first metallic particles having an average particle size less than an average particle size of the second metallic particles. 73 . The three-dimensional object of claim 72 , wherein the second metallic particles have an average particle size in a microparticle range. 74 . The three-dimensional object of claim 72 , wherein the first metallic particles have an average particle size of about 1 micron to about 5 microns. 75 . The three-dimensional object of claim 72 , wherein the first metallic particles have an average particle size in a nanoparticle range. 76 . The three-dimensional object of claim 70 , wherein each layer has a thickness of about 50 microns. 77 . The three-dimensional object of claim 70 , wherein the first material is harder than the second material. 78 . The three-dimensional object of claim 70 , wherein the first material includes a metal matrix composite. 79 . The three-dimensional object of claim 70 , wherein an alloy formed from a mixture of the first material and the second material has a smaller grain structure than an alloy formed from the first material or the second material alone. 80 . The three-dimensional object of claim 70 , wherein the first material and the second material are alloyable with one another to form steel. 81 . The three-dimensional object of claim 80 , wherein either the first material or the second material includes iron. 82 . The three-dimensional object of claim 80 , wherein either the first material or the second material includes one or more of tungsten carbide, tungsten carbide-cobalt, and molybdenum. 83 . The three-dimensional object of claim 70 , wherein the first material and the second material are unalloyable with one another. 84 . The three-dimensional object of claim 83 , wherein either the first material or the second material includes tungsten. 85 . The three-dimensional object of claim 83 , wherein either the first material of the second material includes one or more of molybdenum and copper. 86 . The three-dimensional object of claim 70 , wherein the at least one component of the binder system is an organic binder. 87 . The three-dimensional object of claim 70 , wherein the at least one component of the binder system is one or more polymers. 88 . The three-dimensional object of claim 87 , wherein the at least one component of the binder system is selected from the group consisting of polyethylene glycol, polyethylene, polylactic acid, polyacrylic acid, and polypropylene and combinations thereof. 89 .- 96 . (canceled)