Method of locally influencing resin permeability of a dry preform

What is claimed is: 1. A method of locally influencing resin permeation of a dry preform having one or more reinforcement plies, comprising: applying a selectively permeable veil to at least one of the reinforcement plies of the dry preform, the selectively permeable veil having a veil pattern of a predetermined spatial density tailored to a variable permeability of the dry preform and controlling lateral flow across the dry preform followed by normal flow and entirely impregnating the dry preform within tolerances; applying a peel ply to an exterior of the dry preform; infusing resin into the dry preform through the peel ply and the selectively permeable veil nearest a side of the dry preform nearest a vacuum bagging film and keeping a resin front, nearest the side of the dry preform nearest the vacuum bagging film, leading the resin front at a side of the dry preform nearest a tool face toward a vacuum outlet, such that the resin impregnates the dry preform entirely; and locally imparting toughness to the dry preform via dissolving or melting the selectively permeable veil into the resin upon resin infusion and curing of the dry preform. 2. The method of claim 1 , wherein the selectively permeable veil is selectively non-homogeneously permeable. 3. The method of claim 1 , further comprising: controlling a volume flow rate of resin flowing into and through the dry preform by forming the selectively permeable veil with the veil pattern having a locally varying spatial density. 4. The method of claim 1 , further comprising: controlling a volume flow rate of resin flowing into the dry preform by locally varying a thickness of the selectively permeable veil and directing the resin through a resin path. 5. The method of claim 1 , further comprising: applying the selectively permeable veil to increase a length of a resin path through the dry preform; and directing the resin through the resin path. 6. The method of claim 1 , wherein applying the selectively permeable veil comprises 3D printing the selectively permeable veil onto a reinforcement ply of the dry preform. 7. The method of claim 1 , wherein applying the selectively permeable veil comprises inkjet printing the selectively permeable veil onto a reinforcement ply of the dry preform. 8. The method of claim 1 , wherein applying the selectively permeable veil comprises laying up the selectively permeable veil onto a reinforcement ply of the dry preform. 9. The method of claim 1 , wherein applying the selectively permeable veil comprises pressure deposition of the selectively permeable veil onto a reinforcement ply of the dry preform through at least one nozzle. 10. The method of claim 1 , wherein: the dry preform comprises a plurality of reinforcement plies, and locally influencing the variable permeability of the dry preform comprises applying the selectively permeable veil to at least some of the plurality of reinforcement plies. 11. The method of claim 10 , further comprising: applying a said selectively permeable veil having a first veil pattern to at least a first reinforcement ply of the plurality of reinforcement plies and a further selectively permeable veil having a second veil pattern to at least a second reinforcement ply of the plurality of reinforcement plies. 12. The method of claim 11 , wherein the second veil pattern has a different spatial density and/or thickness to the first veil pattern. 13. A method of fabricating a composite component, comprising: applying a selectively permeable veil, comprising a spatial density tailored to a permeability of a dry fiber preform, to at least one reinforcement ply of the dry fiber preform; applying a peel ply to an exterior of the dry fiber preform; fully infusing the dry fiber preform with resin through the peel ply and then the selectively permeable veil nearest a side of the dry fiber preform nearest a vacuum bagging film and keeping a resin front, nearest the side of the dry fiber preform nearest the vacuum bagging film, leading the resin front at a side of the dry fiber preform nearest a tool face toward a vacuum outlet; locally influencing a resin flow front across the dry fiber preform followed by normal flow and entirely infusing the dry fiber preform through the peel ply and the selectively permeable veil; and curing the dry fiber preform entirely infused with resin. 14. The method of claim 13 , further comprising: toughening the composite component by dissolving the selectively permeable veil into the resin during resin infusion. 15. The method of claim 13 , further comprising: toughening the composite component by melting and dispersing the selectively permeable veil into the resin during resin infusion. 16. A method of toughening a resin infused preform, the method comprising: forming a selectively permeable veil comprising varying spatial density for controlling lateral flow across the resin infused preform followed by normal flow and entirely impregnating within tolerances the resin infused preform via: placing the selectively permeable veil upon at least one reinforcement ply of a dry preform; applying a peel ply to at an exterior of the dry preform; and fully infusing the dry preform with a resin flowing through the peel ply and then the selectively permeable veil nearest a side of the resin infused preform nearest a vacuum bagging film and keeping a resin front, nearest the side of the resin infused preform nearest the vacuum bagging film, leading the resin front at a side of the resin infused preform nearest a tool face toward a vacuum outlet; and toughening the dry preform by dissolving or melting the selectively permeable veil into the resin infused into the dry preform. 17. The method of claim 16 , further comprising keeping the resin front, nearest the side of the resin infused preform nearest the vacuum bagging film, leading the resin front at the side of the resin infused preform nearest the tool face toward the vacuum outlet by less than 3 inches. 18. The method of claim 16 , further comprising wherein the selectively permeable veil is selectively non-homogeneously permeable. 19. The method of claim 16 , further comprising applying the selectively permeable veil to increase a length of a resin path through the dry preform; and directing the resin through the resin path. 20. A method of controlling a flow front of a resin infusing a preform comprising variable permeability, the method comprising: forming a selectively permeable veil comprising varying spatial density for controlling lateral flow across the preform followed by normal flow and entirely impregnating the preform within tolerances via: placing the selectively permeable veil upon at least one reinforcement ply of a dry preform; and fully infusing the dry preform with the selectively permeable veil nearest a side of the preform nearest a vacuum bagging film and keeping a resin front, nearest the side of the preform nearest the vacuum bagging film leading the resin front at a side of the preform nearest a tool face toward a vacuum outlet by less than 3 inches; and toughening the dry preform by dissolving or melting the selectively permeable veil into the resin infused into the dry preform.