Shear band having ultra-low hysteresis rubber

What is claimed is: 1 . An annular shear band defining axial, radial and circumferential directions, the annular shear band comprising: an annular shear layer constructed from a rubber composition; a plurality of discrete, annular reinforcing elements positioned along a plurality of axially-oriented rows throughout the annular shear layer, the reinforcing elements separated from one another by a predetermined distance, each reinforcing element having a centerpoint, wherein the reinforcing elements are interlaced along the axial or radial direction of the shear band such that the centerpoints of reinforcing elements of adjacent, axially-oriented rows are arranged to form a rhombus having non-orthogonal angles between sides of the rhombus, wherein the rubber composition is based upon a cross-linkable rubber composition, the cross-linkable rubber composition comprising, in parts by weight per 100 parts by weight of rubber (phr): between 50 phr and 100 phr of a natural rubber; between 0 phr and 50 phr of a second rubber component selected from the group consisting of polybutadiene rubber, a copolymer of polybutadiene and styrene wherein the copolymer has no more than 5 mol % styrene and combinations thereof; between 25 phr and 60 phr of a reinforcing fillers that is limited to a first portion that is a silica between 35 wt % and 70 wt % of the total reinforcing fillers and has a target surface area of between 40 m 2 /g and 55 m 2 /g and a second portion that is a carbon black between 30 wt % and 65 wt % of the total amount of the reinforcing fillers and has a target surface area of between 15 m 2 /g and 45 m 2 /g; and a sulfur cure system. 2 . The annular shear band of claim 1 , wherein the reinforcing fillers is between 40 phr and 55 phr. 3 . The annular shear band of any of the preceding claims , wherein the target surface area of the first portion of the silica is between 40 m 2 /g and 45 m 2 /g. 4 . The annular shear band of any of the preceding claims , wherein the target surface area of the second portion of the carbon black is between 32 m 2 /g and 39 m 2 /g. 5 . The annular shear band of any of the preceding claims , wherein the rubber composition includes 100 phr of natural rubber. 6 . The annular shear band of any of the preceding claims , wherein the cross-linkable rubber composition further comprises between 0 phr and 20 phr of a third rubber component that is a functionalized styrene-butadiene copolymer having between 1 mol % and 35 mol % styrene, wherein the styrene-butadiene copolymer is functionalized with a moiety capable of bonding with the silica reinforcing filler. 7 . The annular shear band of any of the preceding claims , wherein the rubber composition has a tan delta measured at 23° C. and at 80% strain of between 0.015 and 0.025, a shear modulus G* measured at 23° C. and at 80% strain of at least 1.30 MPa, and a strain at break of greater than 80%. 8 . The annular shear band of claim 7 , wherein the tan delta is between 0.015 and 0.022. 9 . The annular shear band of claim 7 or 8 , wherein the shear modulus G* is between 1.30 MPa and 2.0 MPa. 10 . The annular shear band of any of the preceding claims , wherein the reinforcing elements are interlaced along the axial direction. 11 . The annular shear band of any of the preceding claims , wherein the reinforcing elements are interlaced along the radial direction. 12 . The annular shear band of claim 11 or claim 12 , wherein the reinforcing elements each have a nominal diameter Φ, and wherein adjacent, axially-oriented rows of the reinforcing elements are separated from each other by a predetermined distance, w s , in the range of between Φ/2 and Φ/10 or is Φ/4. 13 . The annular shear band of claim 13 , wherein the predetermined distance, w s , separating adjacent, axially-oriented rows of said reinforcing elements is. 14 . The annular shear band of claim 11 , wherein the reinforcing elements each have a nominal diameter Φ, and wherein non-adjacent, axially-oriented rows of said reinforcing elements are separated from each other by a predetermined distance, w s , in the range of Φ/2 to Φ/10 or is Φ/4. 15 . The annular shear band of claim 12 , wherein along an axially-oriented row, the reinforcement elements are separated by a predetermined distance, w s , in the range of between Φ/2 and Φ/10 or is Φ/4. 16 . The annular shear band of claim 11 , wherein said reinforcing elements each have a nominal diameter Φ, wherein non-adjacent, axially-oriented rows of said reinforcing elements are separated from each other by a predetermined distance, w s , of about Φ/4, and wherein adjacent, axially-oriented rows of said reinforcing elements are separated from each other by the predetermined distance, w s , of about Φ/4. 17 . The annular shear band of claim 12 , wherein said reinforcing elements each have a nominal diameter Φ, wherein adjacent, axially-oriented rows of said reinforcing elements are separated from each other by a predetermined distance, w s , of about Φ/4, and wherein adjacent reinforcing elements along an axially-oriented row of said reinforcing elements are separated from each other by the predetermined distance, w s , of about Φ/4. 18 . The annular shear band of claim 11 or 12 , the shear band having a nominal diameter ND, and wherein said reinforcing elements each have a nominal diameter Φ that is in the range of about ND/200 to about ND/1000. 19 . The annular shear band of any of the preceding claims , wherein the reinforcing elements comprise metal, nylon, PET, or glass fibers impregnated in a thermosetting resin. 20 . A non-pneumatic wheel comprising the annular shear band of any of the preceding claims .