Wind turbine rotor blade components formed from pultruded hybrid-resin fiber-reinforced composites

What is claimed is: 1. A rotor blade for a wind turbine, the rotor blade comprising: a blade root; a blade tip; a body shell extending between the blade root and the blade tip; and a spar cap configured to provide structural support for the body shell, the spar cap being formed from an assembly of pre-formed pultruded products, each of the pultruded products comprising: an interior pultruded portion formed from a first fiber-reinforced composite including a first plurality of fibers impregnated with a thermoset resin material; and an exterior pultruded portion encapsulating the interior pultruded portion, the exterior pultruded portion being formed from a second fiber-reinforced composite including a second plurality of fibers impregnated with a thermoplastic resin material. 2. The rotor blade of claim 1 , wherein the pultruded products are stacked one on top of the other such that the exterior pultruded portion of each pultruded product is positioned directly adjacent to the exterior pultruded portion of at least one adjacent pultruded product. 3. The rotor blade of claim 1 , wherein the thermoplastic resin material contained within the exterior pultruded portion of each pultruded product is welded to the thermoplastic resin material contained within the exterior pultruded portion of an adjacent pultruded product to secure the adjacent pultruded products together. 4. The rotor blade of claim 1 , wherein a volume of each pultruded product includes greater than 50% of the first fiber-reinforced composite and less than 50% of the second fiber-reinforced composite. 5. The rotor blade of claim 4 , wherein the volume of each pultruded product includes greater than 75% of the first fiber-reinforced composite and less than 25% of the second fiber-reinforced composite. 6. The rotor blade of claim 1 , wherein a thickness of the exterior pultruded portion is equal to at least one millimeter around an entire outer perimeter of the interior pultruded portion. 7. The rotor blade of claim 1 , wherein each pultruded product corresponds to a pultruded plate defining a rectangular cross-sectional shape. 8. The rotor blade of claim 1 , wherein fibers of the first plurality of fibers and the second plurality of fibers are continuous and extend along the same direction. 9. A rotor blade component for a wind turbine rotor blade, the rotor blade component comprising: an assembly of pre-formed pultruded products, each of the pultruded products comprising: an interior pultruded portion formed from a first fiber-reinforced composite including a first plurality of fibers impregnated with a thermoset resin material; and an exterior pultruded portion encapsulating the interior pultruded portion, the exterior pultruded portion being formed from a second fiber-reinforced composite including a second plurality of fibers impregnated with a thermoplastic resin material, wherein the thermoplastic resin material contained within the exterior pultruded portion of each pultruded product is welded to the thermoplastic resin material contained within the exterior pultruded portion of an adjacent pultruded product to secure the adjacent pultruded products together. 10. The rotor blade component of claim 9 , wherein the pultruded products are stacked one on top of the other and welded together to form the blade component. 11. The rotor blade component of claim 9 , wherein the volume of each pultruded product includes greater than 75% of the first fiber-reinforced composite and less than 25% of the second fiber-reinforced composite. 12. The rotor blade component of claim 9 , wherein a thickness of the exterior pultruded portion is equal to at least one millimeter around an entire outer perimeter of the interior pultruded portion. 13. The rotor blade component of claim 9 , wherein the rotor blade component corresponds to a spar cap of the wind turbine rotor blade. 14. A method for forming a pultruded hybrid-resin fiber-reinforced composite for use within a rotor blade component of a wind turbine rotor blade, the method comprising: transporting a pre-formed fiber-reinforced composite along a travel path, the pre-formed fiber-reinforced composite including a first plurality of fibers impregnated with a thermoset resin material; transporting a second plurality of fibers along the travel path, the second plurality of fibers being impregnated with a thermoplastic resin material; and directing the pre-formed fiber-reinforced composite and the second plurality of fibers through a heated die such that a pultruded product is formed that includes an interior pultruded portion formed from the pre-formed fiber-reinforced composite and an exterior pultruded portion that encapsulates the interior pultruded portion, the exterior pultruded portion being formed from a second fiber-reinforced composite including the second plurality of fibers impregnated with the thermoplastic resin material. 15. The method of claim 14 , wherein the thermoset resin material included within the pre-formed fiber-reinforced composite is cured prior to being directed through the heated die. 16. The method of claim 14 , wherein the thermoset resin material included within the pre-formed fiber-reinforced composite is uncured prior to being directed through the heated die. 17. The method of claim 14 , further comprising impregnating the second plurality of fibers with the thermoplastic resin material prior to directing the second plurality of fibers through the heated die. 18. The method of claim 15 , wherein directing the pre-formed fiber-reinforced composite and the second plurality of fibers through the heated die comprises directing the second plurality of fibers through the heated die such that the second plurality of fibers surround the pre-formed fiber-reinforced composite. 19. The method of claim 14 , wherein a volume of the pultruded product includes greater than 50% of the pre-formed fiber-reinforced composite and less than 50% of the second fiber-reinforced composite. 20. The method of claim 14 , wherein the volume of the pultruded product includes greater than 75% of the pre-formed fiber-reinforced composite and less than 25% of the second fiber-reinforced composite. 21. The method of claim 14 , wherein a thickness of the exterior pultruded portion is equal to at least one millimeter around an entire outer perimeter of the interior pultruded portion.