Additive manufacturing with nanofunctionalized precursors

What is claimed is: 1 . An additively manufactured, nanofunctionalized metal alloy comprising one or more metals and grain-refining nanoparticles containing one or more nanoparticle elements, wherein said additively manufactured, nanofunctionalized metal alloy has a microstructure with equiaxed grains. 2 . The additively manufactured, nanofunctionalized metal alloy of claim 1 , wherein said one or more metals are selected from the group consisting of aluminum, iron, nickel, copper, titanium, magnesium, zinc, silicon, lithium, silver, chromium, manganese, vanadium, bismuth, gallium, lead, and combinations thereof 3 . The additively manufactured, nanofunctionalized metal alloy of claim 1 , wherein said one or more nanoparticle elements are selected from the group consisting of zirconium, tantalum, niobium, titanium, and oxides, nitrides, hydrides, carbides, or borides thereof, and combinations of the foregoing. 4 . The additively manufactured, nanofunctionalized metal alloy of claim 1 , wherein said grain-refining nanoparticles are present in a nanoparticle concentration of at least 0.01 vol %. 5 . The additively manufactured, nanofunctionalized metal alloy of claim 4 , wherein said grain-refining nanoparticles are present in a nanoparticle concentration of at least 0.1 vol %. 6 . The additively manufactured, nanofunctionalized metal alloy of claim 5 , wherein said grain-refining nanoparticles are present in a nanoparticle concentration of at least 1 vol %. 7 . The additively manufactured, nanofunctionalized metal alloy of claim 1 , wherein said grain-refining nanoparticles have an average largest dimension from about 50 nanometers to about 5000 nanometers. 8 . The additively manufactured, nanofunctionalized metal alloy of claim 1 , wherein said grain-refining nanoparticles are selected from the group consisting of Al 3 Zr, Al 3 Ta, Al 3 Nb, Al 3 Ti, TiB, TiB 2 , WC, AlB, and combinations thereof. 9 . The nanofunctionalized metal alloy of claim 1 , wherein said additively manufactured, nanofunctionalized metal alloy comprises inclusions that contain both (i) at least one of said one or more metals and (ii) at least one of said one or more nanoparticle elements. 10 . The additively manufactured, nanofunctionalized metal alloy of claim 1 , wherein said grain-refining nanoparticles are lattice-matched to within ±5% compared to a metal alloy containing said one or more metals but not said grain-refining nanoparticles. 11 . The additively manufactured, nanofunctionalized metal alloy of claim 10 , wherein said grain-refining nanoparticles are lattice-matched to within ±0.5% compared to a metal alloy containing said one or more metals but not said grain-refining nanoparticles. 12 . The additively manufactured, nanofunctionalized metal alloy of claim 1 , wherein said grain-refining nanoparticles are atomic density-matched to within ±25% compared to a metal alloy containing said one or more metals but not said grain-refining nanoparticles. 13 . The additively manufactured, nanofunctionalized metal alloy of claim 12 , wherein said grain-refining nanoparticles are atomic density-matched to within ±5% compared to a metal alloy containing said one or more metals but not said grain-refining nanoparticles. 14 . The additively manufactured, nanofunctionalized metal alloy of claim 1 , wherein said additively manufactured, nanofunctionalized metal alloy is characterized by an average grain size of less than 1 millimeter. 15 . The additively manufactured, nanofunctionalized metal alloy of claim 14 , wherein said additively manufactured, nanofunctionalized metal alloy is characterized by an average grain size of less than 10 microns. 16 . The additively manufactured, nanofunctionalized metal alloy of claim 1 , wherein said microstructure has a crystallographic texture that is not solely oriented in an additive-manufacturing build direction. 17 . The additively manufactured, nanofunctionalized metal alloy of claim 1 , wherein said microstructure contains a plurality of dendrite layers having differing primary growth-direction angles with respect to each other. 18 . The additively manufactured, nanofunctionalized metal alloy of claim 1 , wherein said microstructure contains a plurality of dendrite layers having an average layer thickness of at least 10 microns. 19 . The additively manufactured, nanofunctionalized metal alloy of claim 1 , wherein said additively manufactured, nanofunctionalized metal alloy is selected from the group consisting of an aluminum alloy, a steel alloy, a nickel alloy, a titanium alloy, a copper alloy, and combinations thereof. 20 . The additively manufactured, nanofunctionalized metal alloy of claim 1 , wherein said microstructure is substantially crack-free. 21 . A nanofunctionalized metal alloy comprising: (a) one or more metals selected from the group consisting of aluminum, iron, nickel, copper, titanium, magnesium, zinc, silicon, lithium, silver, chromium, manganese, vanadium, bismuth, gallium, lead, and combinations thereof; and (b) grain-refining nanoparticles comprising a nanoparticle element selected from the group consisting of zirconium, tantalum, niobium, titanium, and oxides, nitrides, hydrides, carbides, or borides thereof, and combinations of the foregoing, wherein said nanofunctionalized metal alloy has a microstructure with equiaxed grains. 22 . The nanofunctionalized metal alloy of claim 21 , wherein said grain-refining nanoparticles are present in a concentration of at least 0.1 vol %. 23 . The nanofunctionalized metal alloy of claim 22 , wherein said grain-refining nanoparticles are present in a concentration of at least 1 vol %. 24 . The nanofunctionalized metal alloy of claim 21 , wherein said nanofunctionalized metal alloy comprises inclusions that contain both (i) at least one of said one or more metals and (ii) said nanoparticle element. 25 . The nanofunctionalized metal alloy of claim 21 , wherein said grain-refining nanoparticles have an average largest dimension from about 50 nanometers to about 5000 nanometers.