Spoke fabrication for a non-pneumatic wheel

What is claimed is: 1. A method of manufacturing a spoke for a non-pneumatic wheel defining radial, axial, and circumferential directions, the spoke having a web-like body extending between an outer anchor at a radially-outer end of the spoke and an inner anchor at a radially-inner end of the spoke, the method comprising: cutting a sheet to form a precursor, the precursor having an overall shape desired for the spoke and having a radially-outer end and a radially-inner end, the sheet comprising a polymeric material; a plurality of elongate, reinforcement elements ending parallel to each other; folding the radially-outer end back against the precursor to form an outer fold and folding the radially-inner end back against the precursor to form an inner fold; placing an outer anchor strip into a groove of a first mold portion at a location for forming the radially-outer end of the spoke; placing an inner anchor strip into another groove of the first mold portion at a location for forming the radially-inner end of the spoke; inserting the precursor into the first mold portion in contact with the inner anchor strip and the outer anchor strip; placing another outer anchor strip into a recess of a second mold portion at a location for forming the radially-outer end of the spoke; placing another inner anchor strip into another recess of the second mold portion at a location for forming the radially-inner end of the spoke; joining the first mold portion and the second mold portion so as to combine the precursor and anchor strips together; heating the precursor and anchor strips so as to join and cross-link the precursor and anchor strips and form the spoke; and pressing the outer fold and the inner fold to as to self-adhere the polymeric material of the precursor before inserting the precursor into the first mold portion. 2. The method of manufacturing a spoke for a non-pneumatic wheel as in claim 1 , further comprising pressing the anchor strip portions into the first and second mold portions after placing the anchor strip portions into the first and second mold portions. 3. The method of manufacturing a spoke for a non-pneumatic wheel as in claim 1 , further comprising applying pressure to the precursor and anchor strips during the heating. 4. The method of manufacturing a spoke for a non-pneumatic wheel as in claim 1 , wherein the outer anchor and the inner anchor are formed from the anchor strips. 5. The method of manufacturing a spoke for a non-pneumatic wheel as in claim 1 , wherein the sheet of polymeric material comprises a plurality of layers of rubber materials. 6. The method of manufacturing a spoke for a non-pneumatic wheel as in claim 1 , further comprising orienting the sheet so that the plurality of elongate, reinforcement elements extend longitudinally between the radially-outer end and the radially-inner end of the precursor. 7. The method of manufacturing a spoke for a non-pneumatic wheel as in claim 1 , wherein the reinforcement elements comprise inextensible cords extending between the radially-outer end and the radially-inner end of the precursor. 8. The method of manufacturing a spoke for a non-pneumatic wheel as in claim 1 , wherein the sheet comprises a first pair of layers comprising a first polymeric material, wherein the first pair of layers extend between the radially-outer end and the radially-inner end with the reinforcement elements embedded between the first pair of layers; and a second pair of layers comprising a second polymeric material, wherein the second pair of layers extend between the radially-outer end and the radially-inner end with the first pair of layers positioned between the second pair of layers. 9. The method of manufacturing a spoke for a non-pneumatic wheel as in claim 8 , wherein the First polymeric material has an elongation modulus MA10 measured at 10 percent elongation and at a temperature of 23° C. that is in the range of 1 to 10 MPa. 10. The method of manufacturing a spoke for a non-pneumatic wheel as in claim 9 , wherein the second polymeric material has an elongation modulus MA10 measured at 10 percent elongation and at a temperature of 23° C. that is in the range of 1 to 5 MPa. 11. The method of manufacturing a spoke for a non-pneumatic wheel as in claim 1 , further comprising: placing an outer elongate rod within the outer fold; placing an inner elongate rod within the inner fold; wherein the inner elongate rod and the outer elongate rod each extend along the axial direction between the opposing edges of the web-like body. 12. The method of manufacturing a spoke for a non-pneumatic wheel as in claim 11 , wherein the inner elongate rod and the outer elongate rod each comprise a fiberglass material. 13. The method of manufacturing a spoke for a non-pneumatic wheel as in claim 1 , wherein the outer anchor comprises a polymeric material having an elongation modulus MA10 measured at 10 percent elongation and at a temperature of 23° C. that is in the range of 10 to 30 MPa. 14. The method of manufacturing a spoke for a non-pneumatic wheel as in claim 13 , wherein the inner anchor comprises a polymeric material having an elongation modulus MA10 measured at 10 percent elongation and at a temperature of 23° C. that is in the range of 20 to 60 MPa.