Bulk nanocomposite magnets and methods of making bulk nanocomposite magnets

I claim: 1. A bulk magnetic nanocomposite comprising: a matrix comprising at least one hard magnetic component, and a plurality of particles comprising at least one soft magnetic component, wherein the plurality of particles comprising at least one soft magnetic component are homogeneously distributed in the matrix comprising at least one hard magnetic component, the homogeneously distributed particles being uniformly dispersed in the hard magnetic component, and the plurality of particles are no larger than about 20 nm in at least one dimension. 2. The bulk magnetic nanocomposite of claim 1 , wherein substantially all of the plurality of particles comprising at least one soft magnetic component are no larger than a critical size in at least one dimension. 3. The bulk magnetic nanocomposite of claim 1 , wherein substantially all of the plurality of particles comprising at least one soft magnetic component are no larger than about 10 nm in at least one dimension. 4. The bulk magnetic nanocomposite of claim 1 , wherein the at least one hard magnetic component is a brittle material and the at least one soft magnetic component is a ductile material. 5. The bulk magnetic nanocomposite of claim 1 , wherein the at least one hard magnetic component is selected from the group consisting of SmCo 3 , SmCo 5 , SmCo 7 , Sm 2 Co 7 , Nd 2 Fe 14 B, and FePt and mixtures thereof. 6. The bulk magnetic nanocomposite of claim 1 , wherein the at least one hard magnetic component is SmCo 5 or Sm 2 Co 7 . 7. The bulk magnetic nanocomposite of claim 1 , wherein the at least one soft magnetic component is selected from the group consisting of a-Fe, FeCo alloys, Fe 4 N, Fe 8 N, FeB, and FeNi alloys and mixtures thereof. 8. The bulk magnetic nanocomposite of claim 1 , wherein the at least one soft magnetic component is α-Fe or an FeCo alloy. 9. The bulk magnetic nanocomposite of claim 1 , wherein the at least one hard magnetic component is SmCo 5 or Sm 2 Co 7 and the at least one soft magnetic component is α-Fe or an FeCo alloy. 10. The bulk magnetic nanocomposite of claim 1 , wherein the plurality of particles comprising at least one soft magnetic component is present in an amount from about 1 to about 35 weight percent of the matrix comprising at least one hard magnetic component. 11. The bulk magnetic nanocomposite of claim 1 , wherein the bulk magnetic nanocomposite exhibits an enhanced energy product compared to an analogous bulk magnetic material that does not comprise a plurality of particles comprising at least one soft magnetic component distributed in the matrix comprising at least one hard magnetic component. 12. The bulk magnetic nanocomposite of claim 11 , wherein the enhanced energy product is at least about 50 percent greater than the energy product exhibited by an analogous bulk magnetic material that does not comprise a plurality of particles comprising at least one soft magnetic component distributed in the matrix comprising at least one hard magnetic component. 13. The bulk magnetic nanocomposite of claim 11 , wherein the enhanced energy product is at least about 100 percent greater than the energy product exhibited by an analogous bulk magnetic material that does not comprise a plurality of particles comprising at least one soft magnetic component distributed in the matrix comprising at least one hard magnetic component. 14. The bulk magnetic nanocomposite of claim 11 , wherein the enhanced energy product is at least about 200 percent greater than the energy product exhibited by an analogous bulk magnetic material that does not comprise a plurality of particles comprising at least one soft magnetic component distributed in the matrix comprising at least one hard magnetic component. 15. The bulk magnetic nanocomposite of claim 11 , wherein the enhanced energy product is at least about 300 percent greater than the energy product exhibited by an analogous bulk magnetic material that does not comprise a plurality of particles comprising at least one soft magnetic component distributed in the matrix comprising a hard magnetic component. 16. The bulk magnetic nanocomposite of claim 1 , wherein the bulk magnetic nanocomposite exhibits an energy product at about 300° C. that is at least about 60 percent of the energy product exhibited by the bulk magnetic nanocomposite at room temperature.