One-step processing of magnet arrays

What is claimed is: 1. A method of forming an annealed magnet comprising: positioning a magnetizing array ring concentrically with and radially inward of a ring of bulk magnetic material to form an assembly, the magnetizing array ring having an annular structure of magnetizing material generating a continuous magnetic field about the annular structure defining directions for orienting grains of the ring of bulk magnetic material; placing the assembly in a furnace; and operating the furnace to anneal the ring of bulk magnetic material and grow the grains in the directions. 2. The method of claim 1 , further comprising positioning a second magnetizing array ring radially outward of the ring of bulk magnetic material to form the assembly, wherein the second magnetizing array ring cooperates with the magnetizing array ring to adjust the directions. 3. The method of claim 2 , wherein the second magnetizing array ring increases a flux density at selective portions of the ring of bulk magnetic material to modify grain alignment. 4. The method of claim 2 , wherein at least one of the magnetizing array rings is a permanent magnet material. 5. The method of claim 4 , wherein one of the magnetizing array rings is a soft magnetic material. 6. The method of claim 2 , wherein the magnetizing array ring, the second magnetizing array ring, or both have a circumferentially varying radial thickness or height to adjust the directions. 7. The method of claim 1 , further comprising forming the ring of bulk magnetic material from an MnBi alloy material. 8. The method of claim 7 , wherein the bulk magnetic material further includes Ti, Zr, Nb, or Ta, or combinations thereof. 9. A method of forming an annealed magnet comprising: positioning a magnetizing array ring concentrically with and radially inward of a ring of bulk magnetic material to form an assembly, the magnetizing array ring having an annular structure of magnetizing material generating a continuous magnetic field about the annular structure defining directions for orienting grains of the ring of bulk magnetic material; placing the assembly in a furnace; operating the furnace at a first temperature for a first duration to begin annealing the ring of bulk magnetic material and growing the grains in the directions; and operating the furnace at a second temperature, greater than the first, for a second duration to continue annealing the ring of bulk magnetic material and growing the grains in the directions. 10. The method of claim 9 , further comprising positioning a second magnetizing array ring radially outward of the ring of bulk magnetic material to form the assembly, wherein the second magnetizing array ring cooperates with the magnetizing array ring to adjust the directions. 11. The method of claim 10 , wherein the second magnetizing array ring increases a flux density at selective portions of the ring of bulk magnetic material to modify grain alignment. 12. The method of claim 10 , wherein the magnetizing array ring, the second magnetizing array ring, or both have a circumferentially varying radial thickness or height to adjust the directions. 13. A magnetic array assembly comprising: a furnace; and an assembly disposed within the furnace and including (i) a ring of bulk magnetic material having grains; (ii) a first magnetizing array ring concentric with the ring of bulk magnetic material and positioned radially inward of the ring of bulk magnetic material, the first magnetizing array ring having an annular structure of magnetizing material generating a continuous magnetic field about the annular structure defining directions for orienting the grains during growth thereof in a presence of heat from the furnace. 14. The magnetic array assembly of claim 13 , wherein the assembly includes a second magnetizing array ring having another annular structure of magnetizing material positioned concentric with and radially outward of the ring of bulk magnetic material, the second magnetizing array ring cooperating with the magnetizing array ring to adjust the directions and increase a flux density at selective portions of the ring of bulk magnetic material to modify grain alignment. 15. The magnetic array assembly of claim 14 , wherein the first magnetizing array ring, the second magnetizing array ring, or both have a circumferentially varying radial thickness or height to adjust the directions. 16. The magnetic array assembly of claim 15 , wherein one of the magnetizing array rings is a soft magnetic material. 17. The magnetic array assembly of claim 14 , wherein the bulk magnetic material is MnBi. 18. The magnetic array assembly of claim 14 , wherein the bulk magnetic material includes Ti, Zr, Nb, or Ta, or combinations thereof. 19. The magnetic array assembly of claim 13 , wherein the annular structure of magnetizing material generates the continuous magnetic field where the directions gradually change about a circumference of the annular structure.