Electrified vehicle having electric machine stator with embedded wire support overmold

What is claimed is: 1 . A vehicle comprising: a traction battery; and an electric machine powered by the traction battery and configured to provide propulsive power to the vehicle, the electric machine including a rotor separated by an air gap from a stator surrounding the rotor, the stator including teeth extending from a yoke portion toward the rotor and defining slots between adjacent teeth, the slots coated with an electrically insulating material having an arcuate surface exiting the slots and extending at least partially over the teeth on at least one end face of the stator, the stator further including windings positioned within and extending from the slots in contact with the arcuate surface of the electrically insulating material. 2 . The vehicle of claim 1 wherein each slot includes a plurality of windings and wherein the electrically insulating material comprises protuberances extending between the plurality of windings over the teeth on the end face of the stator. 3 . The vehicle of claim 2 wherein each protuberance extends from a first associated arcuate surface and ramps to a second associated arcuate surface exiting an adjacent slot. 4 . The vehicle of claim 1 wherein the electrically insulating material comprises an epoxy. 5 . The vehicle of claim 4 wherein the epoxy is hardened or cured before the windings are positioned within the slots. 6 . The vehicle of claim 5 wherein the windings comprise electrically conductive windings having a rectangular cross section. 7 . The vehicle of claim 1 wherein the slots comprise closed slots. 8 . An electric machine comprising: a rotor; and a stator surrounding the rotor and separated by an air gap, the stator comprising teeth extending from a yoke portion toward the rotor and defining slots between adjacent teeth, the stator including a molded electrically insulating material coating the slots and having a curved surface extending from the slots and at least partially covering the teeth on at least one end face configured to guide associated windings extending from the slots. 9 . The electric machine of claim 8 wherein each slot has a plurality of associated windings and wherein the electrically insulating material extends between at least a portion of the windings for each slot. 10 . The electric machine of claim 9 wherein the electrically insulating material forms a ramped surface extending from a lower first curved surface associated with a first slot to a higher second curved surface associated with a second slot, the second slot being adjacent to the first slot. 11 . The electric machine of claim 10 wherein the electrically insulating material forms a second ramped surface extending from a higher third curved surface associated with the first slot to a lower fourth curved surface associated with the second slot. 12 . The electric machine of claim 10 wherein the molded electrically insulating material comprises an epoxy. 13 . The electric machine of claim 12 wherein the epoxy is hardened before the windings are positioned within the slots. 14 . The electric machine of claim 12 wherein the windings comprise electrical conductors having a rectangular cross-sectional area. 15 . A method of manufacturing an electric machine comprising: forming a stator core from a plurality of laminations each having teeth extending from a yoke portion toward an inner circumference, adjacent teeth forming a slot therebetween; molding a winding guide on the stator core using an electrically insulating fluid that hardens to form arcuate surfaces extending from the slots to the teeth of at least one end face of the stator core; and positioning windings within and extending from the slots, and bending the windings against the arcuate surfaces to form end windings. 16 . The method of claim 15 wherein positioning the windings comprises positioning a plurality of windings in each of the slots. 17 . The method of claim 15 wherein molding the winding guide comprises molding a plurality of protuberances on the at least one end face, each of the protuberances having a ramped surface extending from an arcuate surface extending from a first one of the slots to an arcuate surface extending from a second one of the slots adjacent to the first one of the slots. 18 . The method of claim 15 wherein molding the winding guide comprises molding a plurality of ramped protuberances for each of the slots, each slot having an associated first protuberance ramping from a lower arcuate surface associated with a first slot to a higher arcuate surface associated with a second slot adjacent to the first slot, and a second protuberance ramping from a higher arcuate surface associated with the first slot to a lower arcuate surface associated with the second slot. 19 . The method of claim 18 wherein positioning the windings comprises positioning a plurality of windings in each of the slots, and wherein the plurality of windings corresponds in number to the plurality of ramped protuberances. 20 . The method of claim 15 wherein the winding guide comprises an epoxy.