Axle assembly having a drive pinion and a preload nut and a method of assembly

What is claimed is: 1. An axle assembly comprising: a drive pinion that is rotatable about an axis, the drive pinion including: a gear; and a shaft that extends from the gear, the shaft having a threaded portion and a recess that is disposed proximate the threaded portion; and a preload nut that has a thread that mates with the threaded portion and a deformable ring that is disposed proximate the threaded portion, wherein the deformable ring engages the shaft inside the recess to inhibit the preload nut from rotating about the axis with respect to the drive pinion, wherein the shaft includes a spline and the recess is axially positioned between and spaced apart from the threaded portion and the spline such that the recess does not extend from the spline. 2. The axle assembly of claim 1 wherein the recess is axially positioned further from the gear than the threaded portion is positioned from the gear. 3. The axle assembly of claim 1 wherein the spline is disposed closer to the recess than to the preload nut. 4. The axle assembly of claim 1 wherein the shaft has a recess outer surface that extends between the threaded portion and the spline, wherein the recess extends from the recess outer surface toward the axis. 5. The axle assembly of claim 4 wherein the recess is at least partially defined by a recess bottom surface and a first lateral side that extends between the recess outer surface and the recess bottom surface, wherein the deformable ring engages the first lateral side. 6. The axle assembly of claim 5 wherein the recess is at least partially defined by a second lateral side that is disposed opposite the first lateral side and extends between the recess outer surface and the recess bottom surface, wherein the deformable ring engages the second lateral side. 7. The axle assembly of claim 4 wherein the spline has an outside diameter that is larger than a diameter of the recess outer surface and the recess outer surface has a smaller diameter than a diameter of the threaded portion. 8. The axle assembly of claim 1 wherein the preload nut has a first end from which the deformable ring extends and a portion of the first end is received in the recess. 9. The axle assembly of claim 1 wherein the deformable ring extends continuously around the axis. 10. The axle assembly of claim 1 wherein the shaft has a recess outer surface from which the recess extends, and the deformable ring has an interior side that faces toward the recess outer surface, wherein at least a portion of the interior side is spaced apart from the recess outer surface. 11. The axle assembly of claim 1 wherein the shaft has a second recess that is spaced apart from the recess, and a recess outer surface from which the recess and the second recess extend toward the axis, and the deformable ring has an interior side that faces toward the recess outer surface, wherein the interior side is at least partially spaced apart from the recess outer surface between the recess and the second recess. 12. The axle assembly of claim 1 wherein the deformable ring extends from a first end of the preload nut, a flange is disposed at a second end of the preload nut, and a tool engagement portion is axially positioned between the flange and the deformable ring, wherein the flange extends further from the axis than the tool engagement portion and the tool engagement portion extends further from the axis than the deformable ring. 13. The axle assembly of claim 12 wherein the preload nut has a transition region that extends axially between the tool engagement portion and the deformable ring, wherein the tool engagement portion extends further from the axis than the transition region and the transition region extends further from the axis than the deformable ring. 14. The axle assembly of claim 1 wherein the preload nut does not contact the spline. 15. The axle assembly of claim 1 wherein the deformable ring does not contact the spline. 16. An axle assembly comprising: a drive pinion that is rotatable about an axis, the drive pinion including: a gear; and a shaft that extends from the gear, the shaft having a threaded portion, a spline, a recess that is disposed proximate the threaded portion and that is axially positioned between the threaded portion and the spline, and a recess outer surface that extends between the threaded portion and the spline; and a preload nut that has a thread that mates with the threaded portion and a deformable ring that is disposed proximate the threaded portion, wherein the deformable ring engages the shaft inside the recess to inhibit the preload nut from rotating about the axis with respect to the drive pinion, wherein the recess extends from the recess outer surface toward the axis, wherein the spline has an outside diameter that is larger than a diameter of the recess outer surface and the recess outer surface has a smaller diameter than a diameter of the threaded portion. 17. A method of assembling an axle assembly comprising: threading a preload nut onto a threaded portion of a drive pinion such that a deformable ring of the preload nut is disposed outside and extends around at least a portion of a recess in the drive pinion; and deforming the deformable ring into the recess and into engagement with the drive pinion in the recess to inhibit the preload nut from rotating with respect to the drive pinion, wherein the drive pinion has a shaft that includes a spline and the recess is axially positioned between and spaced apart from the threaded portion and the spline such that the recess does not extend from the spline. 18. The method of claim 17 wherein threading the preload nut onto the threaded portion of the drive pinion includes tightening the preload nut to exert a preload force on a roller bearing assembly that rotatably supports the drive pinion, and deforming the deformable ring secures the preload nut to maintain the preload force. 19. The method of claim 17 wherein the deformable ring is spaced apart from the drive pinion before deforming and the deformable ring contacts the drive pinion in the recess after deforming. 20. The method of claim 17 wherein the recess is at least partially defined by a recess bottom surface, a first lateral side that extends from the recess bottom surface, and a second lateral side that is disposed opposite the first lateral side and extends from the recess bottom surface, and deforming the deformable ring engages the deformable ring against the first lateral side and the second lateral side. 21. The method of claim 17 wherein the deformable ring is deformed with a first engagement feature that compresses the deformable ring into the recess. 22. The method of claim 21 wherein the deformable ring is deformed with a second engagement feature that compresses the deformable ring into a second recess in the drive pinion at the same time the first engagement feature compresses the deformable ring into the recess. 23. The method of claim 17 wherein the preload nut does not contact the spline when the deformable ring is deformed into the recess. 24. The method of claim 17 wherein the deformable ring does not contact the spline.