Grain boundary diffusion process for rare-earth magnets

What is claimed is: 1. A magnet comprising: a single sintered magnet having a concentration profile of heavy rare-earth (HRE) elements across an entire width of the magnet within a continuously sintered rare-earth (RE) magnet bulk; wherein the concentration profile is substantially sinusoidal in shape along an entire thickness of the magnet such that a corresponding coercivity profile across the entire width of the magnet is substantially sinusoidal in shape along an entire thickness of the magnet. 2. The magnet of claim 1 , wherein the single sintered magnet has a thickness greater than 15 mm. 3. The magnet of claim 1 , wherein the RE magnet bulk includes at least one of an RE-Fe—B or Sm—Co alloy. 4. The magnet of claim 1 further comprising electrically insulating material within the bulk. 5. The magnet of claim 4 , wherein the electrically insulating material is formed as at least one layer within the bulk. 6. The magnet of claim 4 , wherein there is a concentration profile of electrically insulating material across the entire width of the magnet within the bulk that is periodic, having alternating relative maximums and minimums along the thickness of the magnet. 7. The magnet of claim 4 , wherein the electrically insulating material includes a magnetic material. 8. The magnet of claim 7 , wherein the electrically insulating material includes one or more of the group consisting of iron oxide, barium ferrite powders, and strontium ferrite powders. 9. A magnet comprising: a single sintered magnet having a concentration profile of heavy rare-earth (HRE) elements across an entire width of the magnet within a continuously sintered rare-earth (RE) magnet bulk; and a magnetic and electrically insulating material disposed within the magnet bulk; wherein the concentration profile is substantially sinusoidal in shape along an entire thickness of the magnet such that a corresponding coercivity profile across the entire width of the magnet is substantially sinusoidal in shape along an entire thickness of the magnet. 10. The magnet of claim 9 , wherein the magnetic and electrically insulating material is formed as at least one layer within the bulk. 11. The magnet of claim 9 , wherein there is a concentration profile of the magnetic and electrically insulating material across the entire width of the magnet within the bulk that is periodic, having alternating relative maximums and minimums along the thickness of the magnet. 12. The magnet of claim 9 , wherein the magnetic and electrically insulating material includes one or more of the group consisting of iron oxide, barium ferrite powders, and strontium ferrite powders. 13. The magnet of claim 9 , wherein the magnetic and electrically insulating material includes a magnetic material coated with an electrically insulating material. 14. A rare-earth magnet comprising: a green compact including a plurality of compressed layers of magnetic powder including a rare-earth element or alloy extending an entire width of the green compact and at least two layers of a material including a heavy rare earth (HRE) element or alloy extending an entire width of the green compact within a bulk of the green compact between the compressed layers of magnetic powder; wherein a concentration profile is substantially sinusoidal in shape along an entire thickness of the magnet such that a coercivity profile across the entire width of the magnet is substantially sinusoidal in shape along an entire thickness of the magnet.