Adhesive mixture including hard magnetic material for e-machine rotor

What is claimed is: 1. A rotor for an electric machine comprising: a core comprised of stacked laminations that define a generally V-shaped pocket between a hub portion and a pole portion; and a cured mixture, filling the pocket and including an adhesive and a magnetic powder, having a volume ratio that increases as a distance normal from a centerline that bisects the pocket increases such that for a unit volume of the cured mixture, a volume of the magnetic powder increases relative to a volume of the adhesive as the distance increases. 2. The rotor of claim 1 , wherein the magnetic powder is an anisotropic magnetic powder and wherein grains of the anisotropic magnetic powder are aligned. 3. The rotor of claim 1 , wherein the laminations further define at least one retention feature proximate the centerline to provide additional surface area within a center bridge region for the cured mixture to adhere to. 4. The rotor of claim 1 , wherein the adhesive is one of an epoxy, a resin, and a thermoset. 5. A rotor for an electric machine comprising: a plurality of sintered rectangular magnets each having shorter sides and longer sides; a core comprised of stacked laminations that define a pocket between a hub portion and a pole portion, the pocket configured to receive a pair of the sintered magnets such that some of the shorter sides and the pocket define a center cavity between the pair of sintered magnets; and a cured mixture, filling the center cavity and including an epoxy and a magnetic powder, having a volume ratio, defined by a volume of the magnetic powder to a volume of the epoxy, that is a predetermined ratio such that a yield strength of the cured mixture is greater than a maximum radial stress caused by rotation of the rotor and an elastic deformation of the cured mixture at the maximum radial stress is less than a predetermined radial deformation. 6. The rotor of claim 5 , wherein the volume ratio increases as a distance to the sintered magnets decreases. 7. The rotor of claim 5 , wherein the laminations further define at least one retention feature within the center cavity to provide additional surface area within the center cavity for the cured mixture to adhere to. 8. The rotor of claim 7 wherein the at least one retention feature defines at least one surface on the hub portion such that a portion of the retention feature is between at least some of the cured mixture and the pole portion. 9. The rotor of claim 5 , wherein the magnetic powder is an isotropic powder. 10. The rotor of claim 5 , wherein the magnetic powder is an anisotropic powder and wherein grains of the anisotropic powder are aligned.