Composite woven outlet guide vane with optional hollow airfoil

What is claimed is: 1. A method of forming a composite woven outlet guide vane, comprising: forming a woven preform shape; weaving a first portion of said preform shape with a two and one-half dimensional weave such that first portion defines an internal cavity; weaving a second portion of said preform shape with a three dimensional weave; integrally forming an inner flange at an inner end of said preform shape; integrally forming an outer flange at an outer end of said preform shape; inserting a removable core into said internal cavity of said woven preform in the area of said two and one-half dimensional weave; forming a desired airfoil shape with said preform shape and said core, said airfoil shape including a leading edge, a trailing edge, a suction side and a pressure side; attaching an inner cover plate at said inner flange; attaching an outer cover plate at said outer flange; placing said woven preform in a mold; and, injecting resin into said mold to form a molded outlet guide vane, wherein the molded outlet guide vane is hollow and defines the internal cavity in the first portion including the two and one-half dimensional weave between said outer flange and said inner flange each integrally formed with said molded outlet guide vane. 2. The method of forming a composite woven outlet guide vane of claim 1 , said forming of at least one of said inner flange or the outer flange being a folding of at least one of said inner flange or outer flange. 3. The method of forming a composite woven outlet guide vane of claim 1 , forming said two and one-half dimensional weave to extend from at least one of said inner flange or outer flange. 4. The method of forming a composite woven outlet guide vane of claim 1 , further comprising forming a pocket extending through said woven preform. 5. The method of forming a composite woven outlet guide vane of claim 1 , said removable core being dissolvable. 6. The method of forming a composite woven outlet guide vane of claim 1 , said forming said inner flange and said outer flange each having flange halves. 7. The method of forming a composite woven outlet guide vane of claim 1 , said forming said inner flange and said outer flange being folding. 8. The method of forming a composite woven outlet guide vane of claim 1 , said weaving said second portion being through a thickness dimension. 9. The method of forming a composite woven outlet guide vane of claim 1 , said weaving said first portion being excluding weaving through a thickness dimension. 10. The method of forming a composite woven outlet guide vane of claim 1 , said attaching of at least one of the inner cover plate or the outer cover plate being stitching. 11. The method of forming a composite woven outlet guide vane of claim 1 , said injecting being a resin transfer molding. 12. An outlet guide vane, comprising: a composite outlet guide vane having an outer flange and an inner flange, wherein the composite outlet guide vane includes a first portion with a two and one-half dimensional weave and a second portion with a three dimensional weave; a leading edge, a trailing edge, a suction side and a pressure side; said outer flange and said inner flange formed integrally with said outlet guide vane; an inner cover plate disposed on said inner flange and an outer cover plate disposed on said outer flange; and, said composite outlet guide vane being hollow and defining an internal cavity in the first portion including the two and one-half dimensional weave between said outer flange and said inner flange. 13. The outlet guide vane of claim 12 further comprising a radial bolt interface at one of said inner cover plate or outer cover plate. 14. The outlet guide vane of claim 13 further comprising an axial bolt interface at the other of said inner cover plate or outer cover plate. 15. The outlet guide vane of claim 12 , said suction side and said pressure side being curved. 16. The outlet guide vane of claim 12 , said suction side and said pressure side being substantially linear. 17. The outlet guide vane of claim 12 , wherein the outer cover plate defines an opening aligned with the internal cavity of the outlet guide vane. 18. The outlet guide vane of claim 12 , further comprising: a core housed within the internal cavity of the outlet guide vane, wherein the core is configured to be removed from the outlet guide vane.