Track for a vehicle

The invention claimed is: 1. A track for a vehicle having a plurality of wheels for driving the track on a terrain, comprising: an endless elastomeric carcass having a wheel-facing side that is mountable onto the plurality of wheels, and a ground-facing side opposite the wheel-facing side; a plurality of elastomeric traction surfaces positioned on the ground-facing side, each of the traction surfaces having a concave first shape when the wheel-facing side of the carcass is not mounted onto the plurality of wheels; and a plurality of primary load distribution members positioned transversely and distributed longitudinally in the carcass so as to distribute, when the track is being driven, at least parts of downward wheel forces applied by at least one of the wheels down onto the wheel-facing side of the carcass into the traction surfaces via flexion of the primary load distribution members. 2. The track of claim 1 , wherein each of the traction surfaces is positioned on the ground-facing side of the track such that each traction surface is disposed under at least one of the primary load distribution members when that traction surface contacts the terrain when the track is being driven to receive at least parts of the downward wheel forces received at that time by that primary load distribution member. 3. The track of claim 2 , wherein each of the primary load distribution members is flexible between: a first partially loaded position in which a traction surface of the plurality of traction surfaces that is disposed under that primary load distribution member when that traction surface contacts the terrain has a concave third shape that is less concave than the first shape when: a) the at least one of the wheels applies a first downward wheel force onto the wheel-facing side of the carcass over that primary load distribution member, and b) that traction surface contacts a substantially planar portion of the terrain, and a first loaded position in which that traction surface has a substantially planar second shape when: a) the at least one of the wheels applies a second downward wheel force that is larger in magnitude than the first downward wheel force onto the wheel-facing side of the carcass over that primary load distribution member, and b) that traction surface contacts that portion of the terrain. 4. The track of claim 3 , wherein each of the primary load distribution members: a) has a first unloaded position, the first partially loaded position being between the first unloaded position and the first loaded position, and b) is biased toward the first unloaded position. 5. The track of claim 1 , wherein the carcass is substantially flat. 6. The track of claim 1 , wherein the carcass has a substantially rectangular widthwise cross section. 7. The track of claim 1 , further comprising a longitudinal reinforcement assembly disposed longitudinally in the carcass, the longitudinal reinforcement assembly having a substantially planar widthwise cross section when the wheel-facing side of the carcass is not mounted onto the plurality of wheels. 8. The track of claim 1 , further comprising a plurality of auxiliary load distribution members, each of the auxiliary load distribution members being positioned transversely and distributed longitudinally in the carcass to cooperate with the primary load distribution members to distribute into the primary load distribution members at least parts of the downward wheel forces via flexion of the auxiliary load distribution members. 9. The track of claim 8 , wherein each of the auxiliary load distribution members is positioned between one of the primary load distribution members and the wheel-facing side of the carcass. 10. The track of claim 9 , wherein each of the auxiliary load distribution members has a second spring constant in flexion, the second spring constant being selected such that that auxiliary load distribution member is flexible between a second unloaded position and a second loaded position and biased toward the second unloaded position, and such that that auxiliary load distribution member is: a) in the second unloaded position when no downward wheel force of the downward wheel forces is applied to the wheel-facing side of the carcass over that auxiliary load distribution member, and b) in the second loaded position when a second downward wheel force of the downward wheel forces is applied to the wheel-facing side of the carcass over that auxiliary load distribution member. 11. The track of claim 1 , further comprising: a) a plurality of guide lugs distributed longitudinally on the wheel-facing side of the carcass and positioned to engage with at least some of the wheels to maintain the track in widthwise alignment with the at least some of the wheels when the track is being driven; and b) a plurality of drive lugs distributed longitudinally on the wheel-facing side of the carcass and positioned to engage with at least one of the wheels to receive driving forces from the at least one of the wheels for driving the track. 12. The track of claim 11 , wherein each one of the drive lugs is one of the guide lugs. 13. A track for a vehicle having a plurality of wheels for driving the track on a terrain, comprising: an endless elastomeric carcass having a wheel-facing side that is mountable onto the plurality of wheels, and a ground-facing side opposite the wheel-facing side; a plurality of elastomeric traction surfaces positioned on the ground-facing side, each of the traction surfaces having a first shape when the wheel-facing side of the carcass is not mounted onto the plurality of wheels; and a plurality of concave primary load distribution members positioned transversely and distributed longitudinally in the carcass so as to distribute when the track is being driven at least parts of downward wheel forces applied by at least one of the wheels down onto the wheel-facing side of the carcass into the traction surfaces via flexion of the primary load distribution members. 14. The track of claim 13 , wherein the first shape is one of: substantially planar, and concave. 15. The track of claim 13 , wherein each of the primary load distribution members has a first spring constant in flexion, the first spring constant being selected such that that primary load distribution member is flexible between a first loaded position and a first unloaded position and biased toward the first unloaded position, and such that that primary load distribution member is: a) in the first unloaded position when no wheel force of the downward wheel forces is applied to the wheel-facing side of the carcass over that primary load distribution member, and b) in the first loaded position when a first downward wheel force of the downward wheel forces is applied to the wheel-facing side of the carcass over that primary load distribution member. 16. The track of claim 15 , wherein each of the traction surfaces is positioned such that at least one of the primary load distribution members is disposed between that traction surface and the wheel-facing side of the carcass, and the first shape of that traction surface is selected to cooperate with that primary load distribution member such that that traction surface has a substantially planar second shape when: a) a first downward wheel force of the downward wheel forces is applied down onto the wheel-facing side of the carcass over that primary load distribution member, and b) that traction surface contacts a substantially planar portion of the terrain. 17. The track of claim 13 , wherein: a) the t