Abstract: The present disclosure is directed to pre-cured composites for use in manufacturing rotor blade components of a wind turbine. In one embodiment, the pre-cured composites are pultruded composites having a continuous base portion with a plurality of integral protrusions extending from the continuous base portion, and a fabric layer cured with the continuous base portion. Further, adjacent protrusions are separated by a gap.

Abstract: The present disclosure is directed to pre-cured composites for use in manufacturing rotor blade components of a wind turbine. In one embodiment, the pre-cured composites are pultruded composites having a continuous base portion with a plurality of integral protrusions extending from the continuous base portion, and a fabric layer cured with the continuous base portion. Further, adjacent protrusions are separated by a gap.

Abstract: Rotor blade components for wind turbines having interlocking edges and methods of manufacturing same are disclosed. In one aspect of the present disclosure, the rotor blade component includes a plurality of pultruded members arranged in one or more layers. Each of the pultruded members are constructed of a plurality of fibers joined together via a cured resin material. Further, each of the plurality of pultruded members includes one or more interlocking edges. Thus, adjacent pultruded members may be aligned via corresponding interlocking edges. The pultruded members are further secured together to create a single structural member.

Abstract: Methods of manufacturing spar caps for a rotor blade of a wind turbine are disclosed. The method includes providing a plurality of pultrusions constructed of one or more fibers or fiber bundles cured via a resin material. Another step includes tapering the ends of the pultrusions at a predetermined angle. The method also includes arranging the tapered pultrusions in a mold of the spar cap. The method also includes joining the plurality of pultrusions together so as to form the spar cap.

Abstract: Methods of manufacturing rotor blade components for a wind turbine using pre-cured, prefabricated plates constructed of multiple fiber materials are disclosed. In one aspect of the present disclosure, the method includes providing a plurality of pultruded members. Each of the pultruded members includes, at least, first and second fiber materials, wherein the first and second fiber materials include at least one of different sizes or different types of fiber materials. Another step includes arranging the plurality of pultruded members into one or more layers. A further step includes joining the layers of pultruded members together to form the rotor blade component.