Front axle assembly

What is claimed is: 1. A front axle assembly comprising: first and second output members disposed for rotation about a rotary axis; speed differentiation means coupled to the first and second output members, the speed differentiation means being configured to permit speed differentiation between the first and second output members; and an axle housing having first and second housing halves, each of the first and second housing halves comprising a main housing portion, a tubular portion and a steering yoke, the main housing portion defining a cavity that houses at least a portion of the speed differentiation means, the tubular portion being fixedly coupled to the main housing portion and extending between the main housing portion and the steering yoke, the steering yoke being fixedly coupled to the tubular portion, wherein an annular joint structure is formed where the first and second first housing halves are coupled to one another, wherein the annular joint structure is formed about the rotary axis such that one of the first and second housing halves is inserted into the other one of the first and second housing halves along an insertion axis that is coincident with the rotary axis; wherein the tubular portion of the first housing half has a circumferentially-extending wall member and wherein in at least one cross-section taken through the wall member in a corresponding plane that is perpendicular to the rotary axis, the thickness of the wall member is not uniform around the circumference of the wall member. 2. The front axle assembly of claim 1 , wherein the tubular portion and the steering yoke of the first housing half is integrally and unitarily formed as a casting. 3. The front axle assembly of claim 2 , wherein the first housing half comprises an isolator mount that is unitarily and integrally formed with the tubular portion and the steering yoke. 4. The front axle assembly of claim 1 , wherein the main housing portion, the tubular portion and the steering yoke of the first housing half is integrally and unitarily formed as a casting. 5. The front axle assembly of claim 1 , wherein the front axle assembly has a top surface when the front axle assembly is positioned in a working orientation, wherein a wall member of each of the tubular portions is thickest where the wall member forms a portion of the top surface of the front axle assembly. 6. The front axle assembly of claim 1 , wherein the second housing half is an assembly in which the tubular portion is inserted into the main housing portion and secured thereto by a first weld. 7. The front axle assembly of claim 6 , wherein the main housing portion of the second housing half defines a first socket that is sized to engage the tubular portion in an interference fit, and wherein the first weld comprises a plurality of slug welds. 8. The front axle assembly of claim 7 , wherein the tubular portion and the steering yoke of the second housing half are secured together by a second weld. 9. The front axle assembly of claim 8 , wherein the steering yoke of the second housing half defines a second socket that is sized to engage the tubular portion in an interference fit, and wherein the second weld comprises a plurality of slug welds. 10. The front axle assembly of claim 6 , wherein the tubular portion and the steering yoke of the second housing half are unitarily and integrally formed. 11. The front axle assembly of claim 1 , further comprising: an input pinion; an input pinion bearing mounted to the input pinion and the housing assembly, the input pinion bearing supporting the input pinion for rotation about a pinion axis relative to the housing assembly and being configured to transmit thrust loads between the housing assembly and the input pinion in both axial directions along the pinion axis; a ring gear coupled to an input of the speed differentiation means and meshingly engaged to the input pinion; and a ring gear bearing mounted to the ring gear and the housing assembly, the ring gear bearing supporting the ring gear for rotation about the rotary axis relative to the housing assembly and being configured to transmit thrust loads between the housing assembly and the ring gear in both axial directions along the rotary axis. 12. The front axle assembly of claim 11 , wherein the input pinion bearing is a four-point angular contact bearing. 13. The front axle assembly of claim 11 , wherein at least a portion of a bearing race of the input pinion bearing is unitarily and integrally formed with the input pinion. 14. The front axle assembly of claim 11 , wherein the ring gear bearing is a four-point angular contact bearing. 15. The front axle assembly of claim 11 , wherein at least a portion of a bearing race of the ring gear bearing is unitarily and integrally formed with the ring gear. 16. The front axle assembly of claim 11 , wherein the input pinion bearing and the ring gear bearing are mounted to the main housing portion of the first housing half. 17. The front axle assembly of claim 11 , wherein the ring gear bearing is disposed radially inward of the ring gear. 18. The front axle assembly of claim 1 , further comprising a multi-mode actuator having a disconnect coupling and a lock coupling, the disconnect coupling being selectively operable for rotatably coupling an output of the speed differentiation means to one of the first and second output members, the lock coupling being selectively operable for rotatably coupling the one of the first and second output members to an input of the speed differentiation means. 19. The front axle assembly of claim 18 , wherein the multi-mode actuator comprises a carrier member, wherein the disconnect coupling comprises a first splined segment, which is formed on the carrier member, and a second splined segment that is formed on the output of the speed differentiation means, and wherein the lock coupling comprises a first set of engagement features, which are formed on the carrier member, and a second set of engagement features that are non-rotatably coupled to the input of the speed differentiation means. 20. The front axle assembly of claim 19 , wherein the lock coupling is a dog clutch. 21. A vehicle driveline component comprising: a differential case defining an internal cavity, the differential case being rotatable about an axis; a differential gearset received in the internal cavity, the differential gearset having first and second side gears; a shaft that is rotatable about the axis; a coupler received in the internal cavity and non-rotatably a engaged to the shaft; a carrier member received in the internal cavity and movable along the axis between a first position, a second position and a third position; wherein the coupler is rotationally decoupled from both the differential case and the first side gear when the carrier member is disposed in the first position, wherein the coupler and the first side gear are rotationally coupled and the differential case is not rotationally coupled to either of the coupler and the first side gear when the carrier member is disposed in the second position, and wherein the differential case, the first side gear and the coupler are rotationally coupled when the carrier member is disposed in the third position. 22. The vehicle driveline component of claim 21 , wherein the carrier member forms a first portion of a dog clutch and wherein a second portion of the dog clutch is rotationally coupled to the differential case. 23. Th