Track for traction of a vehicle

The invention claimed is: 1. A track for traction of a vehicle, the track being mountable around a plurality of wheels that includes a plurality of roller wheels for rolling on a bottom run of the track along a rolling path of the track, the track comprising: a ground-engaging outer side; an inner side opposite to the ground-engaging outer side; elastomeric material allowing the track to flex around the wheels; a plurality of cores at least partially embedded in the elastomeric material, distributed in a longitudinal direction of the track, extending transversally to the longitudinal direction of the track, and each comprising a guide projection on the inner side of the track for contacting the roller wheels to guide the track; and a cracking inhibitor disposed along the rolling path, overlapping with one of the guide projections in the longitudinal direction and in a widthwise direction of the track, and configured to inhibit cracking of the elastomeric material at the rolling path, wherein the cracking inhibitor has a bottom surface with a height that varies, and the height of the bottom surface is greater at a first portion of the cracking inhibitor between the guide projection and an outer lateral edge of the rolling path in a widthwise direction of the track than a second portion of the track aligned with the guide projection in the widthwise direction of the track. 2. The track of claim 1 , wherein the cracking inhibitor is configured to reduce tension and compression of the elastomeric material at the rolling path as the roller wheels move away and towards respective ones of the cores. 3. The track of claim 1 , wherein: the wheels include a drive wheel for driving the track; each of the cores comprises a drive portion configured to engage the drive wheel; and at least part of the cracking inhibitor is located between the drive portion of each of the cores and an outer lateral edge of the rolling path in a widthwise direction of the track. 4. The track of claim 1 , wherein each of the cores comprises a wheel guide configured to contact the roller wheels to guide the track; and at least part of the cracking inhibitor is located between the wheel guide of each of the cores and an outer lateral edge of the rolling path in a widthwise direction of the track. 5. The track of claim 1 , wherein at least part of the cracking inhibitor is located between the guide projection of each of the cores and an outer lateral edge of the rolling path in a widthwise direction of the track. 6. The track of claim 1 , wherein at least part of the cracking inhibitor is located in the rolling path. 7. The track of claim 1 , wherein the cracking inhibitor is closer to an inner lateral edge of the rolling path than to an outer lateral edge of the rolling path in a widthwise direction of the track. 8. The track of claim 1 , wherein: each of the cores comprises a wheel guide configured to contact the roller wheels to guide the track; and the cracking inhibitor overlaps with the wheel guide of each of the cores in a widthwise direction of the track. 9. The track of claim 1 , wherein the cracking inhibitor overlaps with each of the cores in the longitudinal direction of the track. 10. The track of claim 1 , wherein the cracking inhibitor comprises a plurality of crack-inhibiting elements spaced apart from one another in the longitudinal direction of the track. 11. The track of claim 10 , wherein plural ones of the crack-inhibiting elements are disposed along the rolling path between successive ones of the cores that succeed one another in the longitudinal direction of the track. 12. The track of claim 10 , wherein: the rolling path is elevated relative an inner lower area and an outer lower area of the inner side of the track between which the rolling path is disposed in a widthwise direction of the track; and at least part of the crack-inhibiting element is located in the inner lower area of the inner side of the track. 13. The track of claim 10 , wherein each crack-inhibiting element is a stress reliever configured to relieve stress in the elastomeric material at the rolling path where the stress reliever is located as the roller wheels pass by. 14. The track of claim 13 , wherein the stress reliever comprises a void defined by the elastomeric material. 15. The track of claim 14 , wherein the void is a recess. 16. The track of claim 15 , wherein the recess is a groove. 17. The track of claim 16 , wherein the groove is elongated transversally to the longitudinal direction of the track. 18. The track of claim 16 , wherein a width of the groove is greater at a first portion of the cracking inhibitor between the guide projection and an outer lateral edge of the rolling path in the widthwise direction of the track than a second portion of the cracking inhibitor aligned with the guide projection in the widthwise direction of the track. 19. The track of claim 14 , wherein: the wheels include a drive wheel for driving the track; each of the cores comprises a drive portion configured to engage the drive wheel; and at least part of the void is located between the drive portion of an adjacent one of the cores and an outer lateral edge of the rolling path in a widthwise direction of the track. 20. The track of claim 14 , wherein each of the cores comprises a wheel guide configured to contact the roller wheels to guide the track; and at least part of the void is located between the wheel guide of an adjacent one of the cores and an outer lateral edge of the rolling path in a widthwise direction of the track. 21. The track of claim 14 , wherein at least part of the void is located between the guide projection of an adjacent one of the cores and an outer lateral edge of the rolling path in a widthwise direction of the track. 22. The track of claim 14 , wherein at least part of the void is located in the rolling path. 23. The track of claim 14 , wherein the void is closer to an inner lateral edge of the rolling path than to an outer lateral edge of the rolling path in a widthwise direction of the track. 24. The track of claim 14 , wherein: each of the cores comprises a wheel guide configured to contact the roller wheels to guide the track; and the void overlaps with the wheel guide of an adjacent one of the cores in a widthwise direction of the track. 25. The track of claim 14 , wherein the void overlaps with an adjacent one of the cores in the longitudinal direction of the track. 26. The track of claim 14 , wherein the void is molded during molding of the elastomeric material of the track. 27. The track of claim 10 , wherein each crack-inhibiting element comprises deformable material that is more easily deformable than a portion of the elastomeric material contiguous to the deformable material. 28. The track of claim 1 , wherein: the cracking inhibitor is a first cracking inhibitor located closer to a first lateral edge of the rolling path than to a second lateral edge of the rolling path; and the track comprises a second cracking inhibitor disposed along the rolling path, configured to inhibit cracking of the elastomeric material at the rolling path and located closer to the second lateral edge of the rolling path than to the first lateral edge of the rolling path. 29. The track of claim 1 , wherein the height of the bottom surface varies in the longitudinal direction.