Sliding camshaft with improved compressive residual stress

1 . An outer shaft having an outer portion, an inner portion, an outer surface formed on the outer portion and subjectable to wear and loading, and an inner surface formed on the inner portion and subjectable to wear and configured with an internal spline for transferring torque from and sliding axially on an externally splined inner shaft, the outer shaft comprising: a coating on the inner surface for wear resistance; wherein the outer portion is case hardened for wear resistance of the outer surface such that the inner portion is softer than the case hardened outer portion to create a compressive residual stress in the outer portion for load carrying capability. 2 . The outer shaft of claim 1 , wherein the inner portion is not hardened by heat treating; and wherein the outer portion encircles the inner portion. 3 . The outer shaft of claim 1 , wherein the outer surface is configured with a shifting feature for moving the outer shaft axially relative to the inner shaft to a selected one of a plurality of selectable axial positions. 4 . The outer shaft of claim 3 , wherein the shifting feature is a groove formed on the outer surface of the outer shaft. 5 . The outer shaft of claim 1 , wherein the inner surface is further configured with a locating feature for temporarily locating the outer shaft at a selected one of a plurality of selectable axial positions relative to the inner shaft. 6 . The outer shaft of claim 5 , wherein the locating feature is a groove formed on the inner surface of the outer shaft. 7 . The outer shaft of claim 1 , wherein the outer surface is configured with a cam lobe. 8 . The outer shaft of claim 1 , wherein the case hardening of the outer portion is made by a laser heat treatment. 9 . The outer shaft of claim 1 , wherein the case hardening of the outer portion is made by an induction heat treatment. 10 . The outer shaft of claim 1 , wherein the coating is a tungsten disulfide coating. 11 . The outer shaft of claim 1 , wherein the coating is a ferritic nitro carburizing coating. 12 . A sliding camshaft for shifting to a selected one of a plurality of selectable cam lobes, the sliding camshaft comprising: an inner shaft configured with an external spline; and an outer shaft having: an outer portion; an inner portion; an inner surface formed on the inner portion, subjectable to wear, and configured with an internal spline for transferring torque from and sliding axially on the external spline of the inner shaft; an outer surface formed on the outer portion, subjectable to wear and loading, and configured with the plurality of selectable cam lobes; a coating on the inner surface for wear resistance; wherein the outer portion is case hardened for wear resistance of the outer surface such that the inner portion is softer than the case hardened outer portion to create a compressive residual stress in the outer portion for load carrying capability. 13 . The sliding camshaft of claim 12 , wherein the inner portion is not hardened by heat treating; and wherein the outer portion encircles the inner portion. 14 . The sliding camshaft of claim 12 , wherein the outer surface of the outer shaft is further configured with a shifting feature for moving the outer shaft axially relative to the inner shaft to a selected one of a plurality of selectable axial positions that corresponds to the selected one of the plurality of selectable cam lobes. 15 . The sliding camshaft of claim 12 , wherein the shifting feature is a groove formed on the outer surface the outer shaft. 16 . The sliding camshaft of claim 12 , wherein the inner surface of the outer shaft is further configured with a locating feature for temporarily locating the outer shaft at a selected one of a plurality of axial position relative to the inner shaft that corresponds to the selected one of the plurality of selectable cam lobes. 17 . The sliding camshaft of claim 16 , further comprising a detent mechanism having; a biasing device disposed within the inner shaft; and a ball disposed between the biasing device, the inner shaft, and the outer shaft; wherein the biasing device applies an outward biasing force on the ball; and wherein the locating feature is a groove formed on the inner surface of the outer shaft and configured to temporarily locate the outer shaft at the selected one of the plurality of selectable axial positions relative to the inner shaft by engaging the ball of the detent mechanism. 18 . A method of treating an inner surface formed on an inner portion and an outer surface formed on an outer portion of a hollow outer shaft of a sliding camshaft for improved life in an engine, the method comprising: case hardening the outer portion of the outer shaft of the sliding camshaft for wear resistance while leaving the inner portion of the outer shaft of the sliding camshaft softer than the case hardened outer portion to create a compressive residual stress in the outer portion for load carrying capability, wherein the outer portion encircles the inner portion; and coating the inner surface of the outer shaft of the sliding camshaft for inner surface wear resistance. 19 . The method of claim 18 , wherein case hardening includes one of a laser heat treatment and an induction heat treatment. 20 . The method of claim 18 , wherein coating includes one of a tungsten disulfide coating, a diamond like coating, and a ferritic nitro carburizing coating,