Fiber-reinforced composite, a component and a method

The invention claimed is: 1. A fiber reinforced composite for manufacturing a component for a wind turbine, comprising a plurality of first fibers, the fibers being arranged in an unidirectional or biax-configuration, a plurality of second fibers, the second fibers being arranged perpendicularly with respect to a lengthwise direction of the first fibers, and a resin impregnating the first and second fibers such that the first and second fibers are embedded in the resin, wherein a Young's modulus of the resin equals a Young's modulus of the second fibers, wherein the Young's modulus of the resin and the second fibers is smaller than the Young's modulus of the first fibers. 2. The fiber reinforced composite of claim 1 , wherein the Young's modulus of the second fibers and the resin is in the range of 1 to 6 GPa and wherein a Young's modulus of the first fibers is at least 70 GPa. 3. The fiber reinforced composite of claim 1 , wherein the plurality of first fibers are arranged in the biax-configuration such that an angle between the plurality of first fibers and the lengthwise direction is 45 degrees. 4. The fiber reinforced composite of claim 1 , wherein the plurality of second fibers are arranged perpendicularly such that an angle between the plurality of second fibers and the lengthwise direction is in a range of 90±20 degrees. 5. A method for manufacturing a component for a wind turbine using the fiber reinforced composite of claim 1 , comprising a) providing a fiber material comprising the plurality of first fibers and the plurality of second fibers, b) laying the fiber material onto a mold surface, and c) curing the resin impregnating the first and second fibers to form the component. 6. A fiber reinforced composite for manufacturing a component for a wind turbine, comprising a plurality of first fibers, the fibers being arranged in an unidirectional or biax-configuration, a plurality of second fibers, the second fibers being arranged perpendicularly with respect to a lengthwise direction of the first fibers, and a resin impregnating the first and second fibers such that the first and second fibers are embedded in the resin, wherein a Young's modulus of the resin equals a Young's modulus of the second fibers, wherein the second fibers are made of a thermoplastic material and/or a resin. 7. The fiber reinforced composite of claim 6 , wherein the second fibers are made of epoxy resin, PET, polyester, acrylic, polycarbonate, polyimide, ABS and/or polypropylene. 8. A fiber reinforced composite for manufacturing a component for a wind turbine, comprising a plurality of first fibers, the fibers being arranged in an unidirectional or biax-configuration, a plurality of second fibers, the second fibers being arranged perpendicularly with respect to a lengthwise direction of the first fibers, and a resin impregnating the first and second fibers such that the first and second fibers are embedded in the resin, wherein a Young's modulus of the resin equals a Young's modulus of the second fibers, wherein the second fibers each comprise multiple filaments. 9. The fiber reinforced composite of claim 8 , wherein each filament has a diameter ranging from 2 to 20 μm. 10. A fiber reinforced composite for manufacturing a component for a wind turbine, comprising a plurality of first fibers, the fibers being arranged in an unidirectional or biax-configuration, a plurality of second fibers, the second fibers being arranged perpendicularly with respect to a lengthwise direction of the first fibers, and a resin impregnating the first and second fibers such that the first and second fibers are embedded in the resin, wherein a Young's modulus of the resin equals a Young's modulus of the second fibers, wherein the second fibers are each formed as a single fiber. 11. The fiber reinforced composite of claim 10 , wherein the diameter of a respective single fiber ranges from 50 to 500 μm. 12. A fiber reinforced composite for manufacturing a component for a wind turbine, comprising a plurality of first fibers, the fibers being arranged in an unidirectional or biax-configuration, a plurality of second fibers, the second fibers being arranged perpendicularly with respect to a lengthwise direction of the first fibers, and a resin impregnating the first and second fibers such that the first and second fibers are embedded in the resin, wherein a Young's modulus of the resin equals a Young's modulus of the second fibers, wherein the second fibers are attached to the first fibers by means of a stitching yarn. 13. A fiber reinforced composite for manufacturing a component for a wind turbine, comprising a plurality of first fibers, the fibers being arranged in an unidirectional or biax-configuration, a plurality of second fibers, the second fibers being arranged perpendicularly with respect to a lengthwise direction of the first fibers, and a resin impregnating the first and second fibers such that the first and second fibers are embedded in the resin, wherein a Young's modulus of the resin equals a Young's modulus of the second fibers, wherein the second fibers are treated with a coupling agent to improve a mechanical connection at an interface between the second fibers and the resin. 14. A fiber reinforced composite for manufacturing a component for a wind turbine, comprising a plurality of first fibers, the fibers being arranged in an unidirectional or biax-configuration, a plurality of second fibers, the second fibers being arranged perpendicularly with respect to a lengthwise direction of the first fibers, and a resin impregnating the first and second fibers such that the first and second fibers are embedded in the resin, wherein a Young's modulus of the resin equals a Young's modulus of the second fibers, wherein the resin is cured such that the fiber reinforced composite takes the form of the component for the wind turbine. 15. The fiber reinforced composite of claim 14 , wherein the component comprises a rotor blade. 16. A fiber reinforced composite for manufacturing a component for a wind turbine, comprising a plurality of first fibers, the fibers being arranged in an unidirectional or biax-configuration, a plurality of second fibers, the second fibers being arranged with an angle between the plurality of second fibers and a lengthwise direction of the first fibers, said angle in a range between 45 and 90 degrees, a resin impregnating the first and second fibers such that the first and second fibers are embedded in the resin, wherein a Young's modulus of the resin is substantially equal to a Young's modulus of the second fibers; and a stitching yarn, wherein the second fibers are attached to the first fibers with the stitching yarn. 17. The fiber reinforced composite of claim 16 , wherein the Young's modulus of the second fibers is greater than the Young's modulus of the resin and wherein the Young's modulus of the second fibers is up to 5 times the Young's modulus of the resin. 18. The fiber reinforced composite of claim 16 , wherein the plurality of second fibers are arranged in a zigzag configuration such that the angle between the plurality of second fibers and the lengthwise direction is 45 degrees.