Apparatus and method for making composite shafts

What is claimed is: 1. An apparatus for forming a composite shaft, the apparatus comprising: an axial fiber strip dispensing assembly including a plurality of fiber strip guides located circumferentially about a center axis, wherein the plurality of fiber strip guides is configured to dispense a plurality of circumferentially adjacent first fiber strips with the plurality of circumferentially adjacent first fiber strips extending in a generally axial direction; and a first hoop fiber strip dispensing assembly configured to dispense a second fiber strip circumferentially about the center axis, wherein the first hoop fiber strip dispensing assembly is configured to orient the second fiber strip such that a plurality of second fibers of the second fiber strip extend circumferentially about the center axis, wherein the first hoop fiber strip dispensing assembly is configured to translate axially toward the axial fiber strip dispensing assembly while the axial fiber strip dispensing assembly remains in a fixed axial position. 2. The apparatus of claim 1 , further comprising a second hoop fiber strip dispensing assembly configured to dispense a third fiber strip circumferentially about the center axis, wherein the second hoop fiber strip dispensing assembly is configured to orient the third fiber strip such that a plurality of third fibers of the third fiber strip extend circumferentially about the center axis. 3. The apparatus of claim 2 , wherein the first hoop fiber strip dispensing assembly is configured to dispense the second fiber strip while translating in a first axial direction, and wherein the second hoop fiber strip dispensing assembly is configured to dispense the third fiber strip while translating in a second axial direction opposite the first axial direction. 4. The apparatus of claim 1 , further comprising a shaft support configured to translate the composite shaft axially relative to the axial fiber strip dispensing assembly. 5. The apparatus of claim 1 , wherein the first hoop fiber strip dispensing assembly includes a consolidation element. 6. The apparatus of claim 1 , wherein the axial fiber strip dispensing assembly further comprises a plurality of first fiber strip spools located circumferentially about the axial fiber strip dispensing assembly, and wherein the first hoop fiber strip dispensing assembly further comprises the second fiber strip and a second fiber strip spool configured to dispense the second fiber strip. 7. The apparatus of claim 6 , wherein at least one of a fiber density, a fiber volume, or a fiber count of a first fiber strip dispensed from a first fiber strip spool of the plurality of first fiber strip spools is different from at least one of a fiber density, a fiber volume, or a fiber count of the second fiber strip, the plurality of circumferentially adjacent first fiber strips including the first fiber strip. 8. The apparatus of claim 1 , wherein the axial fiber strip dispensing assembly comprises a plurality of first fiber strip spools and a plurality of second fiber strip spools, the plurality of second fiber strip spools being axially staggered with respect to the plurality of first fiber strip spools. 9. A method of forming a composite shaft, comprising: unspooling a first portion of a plurality of axial fiber strips over a shaft base, wherein the plurality of axial fiber strips is dispensed from an axial fiber strip dispensing assembly; coupling the first portion of the plurality of axial fiber strips to the shaft base by translating a first consolidation element over the shaft base in a first axial direction while the axial fiber strip dispensing assembly remains in a fixed axial position, wherein the first consolidation element applies heat and radially inward pressure to the first portion of the plurality of axial fiber strips; translating the shaft base in the first axial direction to unspool a second portion of the plurality of axial fiber strips over the first portion of the plurality of axial fiber strips; coupling the second portion of the plurality of axial fiber strips to the first portion of the plurality of axial fiber strips by translating a second consolidation element over the shaft base in a second axial direction, wherein the second consolidation element applies heat and radially inward pressure to the second portion of the plurality of axial fiber strips; and translating the shaft base in the second axial direction to unspool a third portion of the plurality of axial fiber strips over the second portion of the plurality of axial fiber strips. 10. The method of claim 9 , further comprising depositing a first hoop fiber strip over the first portion of the of the plurality of axial fiber strips. 11. The method of claim 10 , wherein depositing the first hoop fiber strip over the first portion of the of the plurality of axial fiber strips comprises translating a first hoop fiber strip dispensing assembly circumferentially about the shaft base and in the first axial direction. 12. The method of claim 11 , further comprising depositing a second hoop fiber strip over the second portion of the plurality of axial fiber strips. 13. The method of claim 12 , wherein depositing the second hoop fiber strip over the second portion of the plurality of axial fiber strips comprises translating a second hoop fiber strip dispensing assembly circumferentially about the shaft base and in the second axial direction. 14. The method of claim 13 , wherein the first hoop fiber strip dispensing assembly includes the first consolidation element, and wherein the second hoop fiber strip dispensing assembly includes the second consolidation element. 15. An apparatus for forming a composite shaft, the apparatus comprising: an axial fiber strip dispensing assembly including a plurality of fiber strip guides located circumferentially about a center axis, wherein the axial fiber strip dispensing assembly is configured to dispense a plurality of circumferentially adjacent fiber strips, and wherein each fiber strip of the plurality of circumferentially adjacent fiber strips includes a plurality of fibers, and wherein the axial fiber strip dispensing assembly is configured to orient the plurality of circumferentially adjacent fiber strips such that the plurality of fibers extend in a generally axial direction; and a first consolidation element configured to apply heat and radially inward pressure against the plurality of circumferentially adjacent fiber strips, wherein the first consolidation element is configured to translate axially towards the axial fiber strip dispensing assembly while the axial fiber strip dispensing assembly remains in a fixed axial position. 16. The apparatus of claim 15 , further comprising a second consolidation element located on a side of the axial fiber strip dispensing assembly opposite the first consolidation element, wherein the second consolidation element is configured to apply heat and radially inward pressure against the plurality of circumferentially adjacent fiber strips, and wherein the second consolidation element is configured to translate axially towards the axial fiber strip dispensing assembly. 17. The apparatus of claim 15 , wherein the first consolidation element is configured to translate in a circumferential direction. 18. The apparatus of claim 15 , wherein the axial fiber strip dispensing assembly is configured to dispense the plurality of circumferentially adjacent fiber strips adjacent to one another such that the plurality of circumferentially adjacent fiber strips jointly form an annular st