Hockey stick with variable stiffness shaft

We claim: 1. A shaft structure of a hockey stick formed by a method comprising the steps of: wrapping a mandrel with fiber tape to form a wrapped shaft structure; removing the mandrel from the wrapped shaft structure to reveal an internal shaft cavity; inserting an inflatable bladder into the internal shaft cavity; positioning the wrapped shaft structure within a mold; heating the mold and expanding a bladder within the cavity to urge the fiber tape toward the walls of the mold; and cooling the mold, contracting the bladder, and removing the bladder from the shaft structure, wherein the walls of the mold impart an outer geometry on the shaft structure that includes a first portion having a cross-sectional geometry with at least five sides along a length of the shaft structure, and a second portion, wherein the first portion has a bending stiffness that varies along the length of the first portion and is greater than a second bending stiffness of the second portion, due to the first portion having a greater second moment of inertia than the second portion, wherein the first portion has a maximum bending stiffness at a point along the shaft between 11 and 18 inches from heel of the hockey stick, and wherein the maximum bending stiffness is at least 10% higher than a bending stiffness at a point where the shaft structure is coupled to a blade of the hockey stick. 2. The shaft structure according to claim 1 , wherein the first portion of the shaft structure has a first shaft sidewall thickness and the shaft structure further includes a third portion with a second shaft sidewall thickness, less than the first shaft sidewall thickness. 3. The shaft structure according to claim 1 , wherein the cross-sectional geometry of the first portion of the shaft structure with at least five sides includes a flat surface facing a front of the hockey stick and an apex facing a back of the hockey stick. 4. The shaft structure according to claim 1 , wherein the second portion of the shaft structure has a rectangular cross-section. 5. The shaft structure according to claim 1 , wherein the first portion and the second portion of the shaft structure have approximately a same elastic modulus. 6. The shaft structure according to claim 5 , wherein the first portion and the second portion of the shaft structure have approximately a same sidewall thickness. 7. The shaft structure according to claim 1 , wherein the first portion has a heptagonal cross-sectional geometry. 8. A hockey stick apparatus, comprising: a hollow shaft structure molded from wrapped fiber tape, further comprising: a longitudinal length, a first portion of which has a cross-sectional geometry with at least five sides and a first flexural rigidity, and a second portion of which has a second flexural rigidity, less than the first flexural rigidity; and a molded blade structure, rigidly coupled to a proximal end of the hollow shaft structure, wherein the first portion has a maximum bending stiffness at a point along the shaft between 3 and 9 inches from heel of the hockey stick, and wherein the maximum bending stiffness is at least 10% higher than a bending stiffness at a point where the shaft structure is coupled to a blade of the hockey stick. 9. The hockey stick apparatus of claim 8 , wherein the first flexural rigidity of the first portion is higher than the second flexural rigidity due to a higher second moment of area of the cross-sectional geometry of the first portion, and wherein the first portion and the second portion of the shaft structure have approximately a same elastic modulus. 10. The hockey stick apparatus of claim 9 , wherein the first portion and the second portion of the hollow shaft structure have an approximately same sidewall thickness. 11. The hockey stick apparatus of claim 9 , wherein the first portion has a heptagonal cross-sectional geometry. 12. The hockey stick apparatus of claim 9 , wherein the molded blade structure comprises a slot extending from a front face to a back face along a portion of a length of the molded blade structure. 13. The hockey stick apparatus of claim 12 , wherein the slot is substantially parallel to a top edge of the molded blade structure.