Airless tire construction having multiple layers

What is claimed is: 1 . A non-pneumatic tire having a rotational axis, comprising: a plurality of layers having opposing faces lying in opposing planes substantially perpendicular to the rotational axis, wherein the plurality of layers includes a first layer, a second layer, and third layer that is disposed between the first layer and the second layer, wherein the first layer includes a first annular inner surface, a first annular outer surface, and a first plurality of spokes extending between the first annular inner surface and the first annular outer surface, wherein the second layer includes a second annular inner surface, a second annular outer surface, and a second plurality of spokes extending between the second annular inner surface and the second annular outer surface, wherein the first layer has a first stiffness, the second layer has a second stiffness, and the third layer has a third stiffness different from the first stiffness and different from the second stiffness; and a tread portion covering an outer surface of the plurality of layers. 2 . The non-pneumatic tire of claim 1 , wherein the first stiffness is equal to the second stiffness. 3 . The non-pneumatic tire of claim 1 , wherein the third stiffness is greater than the first stiffness and greater than the second stiffness. 4 . The non-pneumatic tire of claim 1 , wherein the third layer includes a third annular inner surface, a third annular outer surface, and a third plurality of spokes extending between the third annular inner surface and the third annular outer surface. 5 . The non-pneumatic tire of claim 1 , further comprising a shear band covering the outer surface of the plurality of layers. 6 . The non-pneumatic tire of claim 1 , wherein the first layer and the second layer are constructed of a material selected from the group consisting of: rubber, resin, thermoplastic, and urethane. 7 . The non-pneumatic tire of claim 6 , wherein the third layer is constructed of a material selected from the group consisting of: carbon cords, nylon, polyester, glass fiber, and aramid fiber. 8 . The non-pneumatic tire of claim 1 , wherein the first layer has a first outer diameter, the second layer has a second outer diameter, and the third layer has a third outer diameter different from the first outer diameter and different from the second outer diameter. 9 . A tire, comprising: a wheel portion having an axis of rotation and an annular outer surface; and a webbing extending from an annular inner surface of the wheel portion towards the axis of rotation, wherein a stiffness of the webbing varies along the axial direction. 10 . The tire of claim 9 , wherein the webbing is attached to a hub in the center of the tire. 11 . The tire of claim 10 , wherein the webbing forms a plurality of spokes. 12 . The tire of claim 11 , wherein the webbing is formed by an additive manufacturing process. 13 . The tire of claim 12 , wherein the stiffness varies along the axial direction due to a change of material in the axial direction. 14 . The tire of claim 13 , wherein the materials are selected from the group consisting of: rubber, resin, thermoplastic, urethane, carbon cords, nylon, polyester, glass fiber, and aramid fiber. 15 . A non-pneumatic tire comprising: a hub configured to be coupled to a machine, the hub having a rotational axis about which the tire is configured to roll; a support structure including an inner circumferential portion associated with the hub and an outer circumferential portion radially spaced from the inner circumferential portion, the support structure including a plurality of layers of elastomeric material having opposing faces lying in opposing planes substantially perpendicular to the rotational axis, each of the layers extending radially from the inner circumferential portion of the support structure to the outer circumferential portion, and the plurality of layers together extending axially between opposed, axially-spaced side edges of the tire, wherein the support structure includes a plurality of cavities; and a tread portion associated with the outer circumferential portion, wherein at least two adjacent layers each include respective cavity forming apertures corresponding to at least a portion of a cavity, and wherein the layers are chemically bonded to one another. 16 . The tire of claim 15 , wherein at least some of the layers are annular layers having a centrally located aperture through which the hub is received. 17 . The tire of claim 15 , wherein an interface is present between adjacent layers of elastomeric material, and the interface includes a chemical bond between the adjacent layers. 18 . The tire of claim 17 , further including a reinforcing member associated with at least some of the interfaces. 19 . The tire of claim 18 , wherein the reinforcing member includes at least one of a fiber reinforcement material and a cord. 20 . The tire of claim 15 , wherein the layers are adhesively bonded to one another.