Tire with toroidal element

What is claimed is: 1. A tire having a crown region and a pair of sidewall regions, the tire comprising: a pair of beads, including a first bead and a second bead; a body ply having a main portion which extends circumferentially about the tire from the first bead to the second bead, a first turned-up portion around the first bead, and a second turned-up portion around the second bead, wherein the first turned-up portion has a first end in the crown region of the tire, wherein the second turned-up portion has a second end in the crown region of the tire, and wherein the first turned-up portion overlaps the second turned-up portion; a toroidal element, wherein the toroidal element includes an outer region formed by the body ply turned-up portions, an inner region formed by the body ply main portion, and a central region formed by an inner rubber component located between the main portion of the body ply and the turned-up portions of the body ply, wherein at least a portion of the central region has a greater elasticity than either the inner or outer regions, wherein the toroidal element extends across the crown region of the tire, wherein the toroidal element extends along at least a portion of at least one sidewall region of the tire, wherein the toroidal element extends from the first bead to the second bead, wherein the inner rubber component extends from the first bead to the second bead, wherein the inner rubber component has a mechanical modulus in a range of 9.7×10 6 Pa to 2.8×10 7 Pa at 15% strain, and wherein the inner rubber component has a loss modulus (tan δ) in a range of 0.03 to 0.20 measured at 100° C., 7% deflection and 10 Hz. 2. The tire of claim 1 , wherein the central region of the toroidal element includes at least one high stiffness layer between a pair of lower stiffness layers. 3. The tire of claim 1 , wherein the toroidal element has a thickness T and the inner and outer regions have a thickness T 1 and T 2 , respectively, wherein T is at least three times greater than T 1 , and wherein T is at least three times greater than T 2 . 4. The tire of claim 3 , wherein T 1 =T 2 . 5. The tire of claim 1 , wherein the inner rubber component has a Shore A hardness between 70 and 97. 6. A tire comprising: a tread formed in a crown region of the tire; sidewall regions extending from the crown region to bead areas; a toroidal element extending across a crown region of the tire, and further extending along at least a portion of each sidewall region of the tire, the toroidal element having a central region located between inner and outer regions, wherein the central region is more elastic than the inner and outer regions; and wherein the central region of the toroidal element is constructed of a resin material selected from the group consisting of Polyphenylsulfate, Polyetherimide, and an epoxy adhesive. 7. The tire of claim 6 , wherein the central region of the toroidal element includes a layer of rubber having a mechanical modulus in a range of 9.7×10 6 Pa to 2.8×10 7 Pa at 15% strain and a Shore A hardness in a range of 70 to 97. 8. The tire of claim 6 , wherein the central region of the toroidal element includes a layer of rubber having a loss modulus (tan δ) in a range of 0.03 to 0.20 measured at 100° C., 7% deflection and 10 Hz. 9. The tire of claim 6 , wherein the central region of the toroidal element is a plurality of layers of non-reinforced resin tape. 10. The tire of claim 6 , wherein each of the inner and outer regions of the toroidal element is formed of a reinforced resin material. 11. The tire of claim 6 , wherein the toroidal element extends from a first bead area to a second bead area. 12. The tire of claim 6 , further comprising a body ply, wherein the body ply includes a main portion forming the inner region of the toroidal element, which extends circumferentially about the tire from a first bead area to a second bead area, wherein the body ply further includes a first turned-up portion and a second turned-up portion forming the outer region of the toroidal element, wherein the first turned-up portion has a first end in the crown region of the tire, wherein the second turned-up portion has a second end in the crown region of the tire, and wherein the first turned-up portion does not overlap the second turned-up portion, and at least one additional ply spans at least a portion of the crown region, partially overlapping the first and second turned-up ends. 13. The tire of claim 6 , further comprising a body ply, wherein the body ply includes a main portion forming the inner region of the toroidal element, which extends circumferentially about the tire from a first bead area to a second bead area, wherein the body ply further includes a first turned-up portion and a second turned-up portion forming the outer region of the toroidal element, and wherein the first turned-up portion at least partially overlaps the second turned-up portion. 14. A tire having a crown region and a pair of sidewall regions, the tire comprising: a pair of beads, including a first bead and a second bead; a body ply having a main portion which extends circumferentially about the tire from the first bead to the second bead, a first turned-up portion around the first bead, and a second turned-up portion around the second bead, wherein the first turned-up portion has a first end in the crown region of the tire, wherein the second turned-up portion has a second end in the crown region of the tire, and wherein the first turned-up portion overlaps the second turned-up portion; a toroidal element, wherein the toroidal element includes an outer region formed by the body ply turned-up portions, an inner region formed by the body ply main portion, and a central region formed by an inner rubber component located between the main portion of the body ply and the turned-up portions of the body ply, wherein at least a portion of the central region has a greater elasticity than either the inner or outer regions, wherein the toroidal element extends across the crown region of the tire, wherein the toroidal element extends along at least a portion of at least one sidewall region of the tire, and wherein the central region of the toroidal element includes at least one high stiffness layer between a pair of lower stiffness layers. 15. The tire of claim 14 , wherein the toroidal element has a thickness T and the inner and outer regions have a thickness T 1 and T 2 , respectively, wherein T is at least three times greater than T 1 , and wherein T is at least three times greater than T 2 . 16. The tire of claim 15 , wherein T 1 =T 2 . 17. The tire of claim 14 , wherein the toroidal element extends from the first bead to the second bead. 18. The tire of claim 14 , wherein the inner rubber component has a mechanical modulus in a range of 9.7×10 6 Pa to 2.8×10 7 Pa at 15% strain. 19. The tire of claim 14 , wherein the inner rubber component has a Shore A hardness in a range of 70 to 97. 20. The tire of claim 14 , wherein the inner rubber component has a loss modulus (tan δ) in a range of 0.03 to 0.20 measured at 100° C., 7% deflection and 10 Hz.