Axle shaft disconnect system

The invention claimed is: 1. A drivetrain for a vehicle, comprising: an axle shaft having a radial nub protruding from an outer surface of the axle shaft; and a shaft guide circumferentially surrounding the axle shaft and having an inner radial groove configured to have an interference fit with the radial nub, wherein when the axle shaft is axially translated along an axial direction to engage the radial nub with the inner radial groove of the shaft guide, the axle shaft is disconnected from a wheel hub of the vehicle. 2. The drivetrain of claim 1 , wherein when the axle shaft is disconnected from the wheel hub, the axle shaft is also disengaged from a drivetrain component or a powertrain component, and wherein the axial direction is an outboard direction and axial translation of the axle shaft along the outboard direction to disconnect the axle shaft from the wheel hub is relative to a position of the axle shaft when the drivetrain is in a drive mode. 3. The drivetrain of claim 1 , wherein the axle shaft is enclosed within an axle tube and the shaft guide is arranged between an inner surface of the axle tube and the outer surface of the axle shaft. 4. The drivetrain of claim 1 , wherein the shaft guide has a cylindrical portion and a flared portion, the cylindrical portion and the flared portion forming a continuous, single unit, and wherein the shaft guide is formed of a more flexible material than the axle shaft. 5. The drivetrain of claim 4 , wherein the cylindrical portion of the shaft guide is in face-sharing contact with an inner surface of an axle tube. 6. The drivetrain of claim 4 , wherein the flared portion circumferentially surrounds the axle shaft and an inner surface of the flared portion is spaced away and not in contact with the axle shaft. 7. The drivetrain of claim 6 , wherein the inner radial groove of the shaft guide is disposed along the inner surface of the flared portion of the shaft guide. 8. The drivetrain of claim 1 , wherein when the axle shaft is connected to the wheel hub, the radial nub of the axle shaft is positioned inboard of the shaft guide. 9. The drivetrain of claim 1 , wherein when the axle shaft is axially translated to engage the radial nub with the inner radial groove of the shaft guide, a clearance gap between the wheel hub and an outboard end of the axle shaft is formed. 10. A method for a disconnecting an axle shaft from a powertrain of a vehicle, comprising: axially translating the axle shaft in an outboard direction, the axle shaft circumferentially surrounded by a shaft guide having an inner radial groove, to engage a radial nub of the axle shaft with the inner radial groove of the shaft guide, wherein the axle shaft is disconnected from a wheel hub when the radial nub is engaged with the inner radial groove. 11. The method of claim 10 , wherein bolts securing the axle shaft to the wheel hub are removed prior to axially translating the axle shaft. 12. The method of claim 10 , wherein the radial nub of the axle shaft presses against an inner surface of the shaft guide as the axle shaft is translated until the radial nub is inserted into the inner radial groove. 13. The method of claim 10 , wherein the axle shaft is axially translated in the outboard direction along a distance that disengages an inboard end of the axle shaft from a drivetrain or powertrain component. 14. The method of claim 10 , wherein when the radial nub of the axle shaft is engaged with the inner radial groove of the shaft guide, the wheel hub spins independent of the axle shaft. 15. The method of claim 10 , further comprising axially translating the axle shaft along an inboard direction, relative to a position of the axle shaft when the radial nub of the axle shaft is engaged with the inner radial groove of the shaft guide, to enable connection of the axle shaft to the wheel hub, and wherein the radial nub is positioned inboard of the shaft guide when the axle shaft is connected to the wheel hub. 16. A vehicle, comprising: an electric motor coupled to a drivetrain of the vehicle, the drivetrain including: an axle shaft having a radial nub; an axle tube enclosing the axle shaft; and a shaft guide arranged between an inner surface of the axle tube and an outer surface of the axle shaft and having an inner radial groove configured to receive the radial nub of the axle shaft, wherein a wheel hub of the vehicle spins independent of the electric motor when the radial nub of the axle shaft is inserted into the inner radial groove of the shaft guide. 17. The vehicle of claim 16 , wherein the shaft guide has a flanged portion including a sleeve and a cone, the cone including the inner radial groove, and wherein an inner diameter of the cone is greater than a diameter of the axle shaft. 18. The vehicle of claim 17 , wherein the cone is coupled to a cylindrical portion of the shaft guide at a region of the cone having a widest diameter of the cone, and wherein an outer diameter of the cylindrical portion is equal to an inner diameter of the axle tube. 19. The vehicle of claim 16 , wherein when the axle shaft is connected to the wheel hub, the axle shaft rotates within the shaft guide without contacting the shaft guide. 20. The vehicle of claim 16 , wherein the shaft guide is located proximate to an inboard end of the axle shaft and maintains a position of the inboard end of the axle shaft when the axle shaft is disconnected from the wheel hub.