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A resin-soluble thermoplastic polymer veil toughening element for a curable composition wherein the polymer element is a non-woven veil in solid phase adapted to undergo at least partial phase transition to fluid phase on contact with a component of the curable resin matrix composition in which it i

A resin-soluble thermoplastic polymer veil toughening element for a curable composition wherein the polymer element is a non-woven veil in solid phase adapted to undergo at least partial phase transition to fluid phase on contact with a component of the curable resin matrix composition in which it is soluble at a temperature which is less than the temperature for substantial onset of gelling and/or curing of the curable composition and which temperature is less than the polymer elements melt temperature; a method for the preparation thereof, a preform support structure for a curable composition comprising the at least one thermoplastic veil element together with structural reinforcement fibers, methods for preparation thereof, a curable composition comprising the at least one thermoplastic veil element or the support structure and a curable resin matrix composition, a method for preparation and curing thereof, and a cured composite or resin body obtained thereby, and known and novel uses thereof.

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1. A thermoplastic toughening element for resin infusion manufacturing of composite consisting of a layer of a plurality of resin-soluble thermoplastic fibers randomly oriented and adhered to one another into a veil consisting of the resin soluble thermoplastic fibers with an areal weight of about 5

1. A thermoplastic toughening element for resin infusion manufacturing of composite consisting of a layer of a plurality of resin-soluble thermoplastic fibers randomly oriented and adhered to one another into a veil consisting of the resin soluble thermoplastic fibers with an areal weight of about 5 to about 80 gsmwherein the toughening element is interposed between and in direct contact with adjacent plies consisting of a structural reinforcement fiberwherein the resin-soluble thermoplastic fibers are in a solid phase and undergo at least partial phase transition to a fluid phase on contact with a curable resin matrix in which the thermoplastic fibers are soluble at a first temperature for substantial dissolution, which is less than a second temperature for substantial onset of curing of the curable resin matrix, andwherein the concentration of toughening element is highest in the resin matrix between the adjacent plies and decreases in concentration as the matrix approaches the plies. 2. The toughening element of claim 1 wherein the fibers comprise a first resin-soluble thermoplastic material and a second resin-soluble thermoplastic material. 3. The toughening element of claim 2 wherein the first resin-soluble thermoplastic material and the second resin-soluble thermoplastic material are the same. 4. The toughening element of claim 2 wherein the first material and the second material are different. 5. The toughening element of claim 1 wherein the resin-soluble thermoplastic is selected from the group consisting of cellulose derivatives, polyester, polyamide, polyimide, polycarbonate, polyurethane, poly(methyl methacrylate), polystyrene, polyaromatics; polyesteramide, polyamideimide, polyetherimide, polyaramide, polyarylate, polyacrylate, poly(ester) carbonate, poly(methyl methacrylate/butyl acrylate), polysulphone, polyethersulphone, polyetherethersulphone polyethersulphone-etherketone, and copolymers and combinations thereof. 6. The toughening element of claim 1 wherein the fibers solubilize in a curable resin matrix at a first temperature less than a second cure temperature of the curable resin matrix. 7. The toughening element of claim 6 wherein the solubilized fibers chain link with the curable resin matrix at the second cure temperature of the curable resin matrix. 8. The toughening element of claim 1 wherein the fibers carry modifiers. 9. A toughening element for a curable composition consisting of a veil consisting of resin soluble thermoplastic fibers in a solid phase interposed between and in direct contact with layers consisting of reinforcement fibers wherein the toughening element undergoes at least partial phase transition to a fluid phase on contact with a curable composition in which it is soluble, at a first temperature for substantial dissolution, which is less than a second temperature for substantial onset of gelling and/or curing of the curable composition and which first temperature is less than a third temperature for substantial melting of the resin-soluble thermoplastic veil, andwherein the concentration of toughening element is highest in the resin matrix between the adjacent plies and decreases in concentration as the curable composition approached the layers of reinforcement fibers. 10. The toughening element of claim 9 wherein the layers of reinforcement fibers form a preform and wherein the resin-soluble thermoplastic veil stabilizes the preform. 11. A preform for composite manufacturing comprising: a structural component consisting of a plurality of structural reinforcement fiber plies;a toughening element consisting of a plurality of resin-soluble thermoplastic fibers randomly oriented and adhered to one another into a veil interposed between and in direct contact with adjacent plies of structural reinforcement fibers;wherein the toughening element is in the form of a non-woven veil with an areal weight of about 5 to about 80 gsm in contact with the adjacent plies of structural reinforcement fiber in the structural component,wherein the toughening element is in a solid phase and substantially remains in a soluble phase when contacted with a curable resin matrix at a first temperature for infusion, which is less than a second temperature for substantial dissolution of the toughening element, andwherein the concentration of toughening element is highest in the resin matrix between the adjacent plies and decreases in concentration as the matrix approaches the plies. 12. The preform for composite manufacturing of claim 11 wherein the structural component is provided in the form of a plurality of adjacent reinforcement fiber layers and wherein the toughening element is provided in the form of a plurality of veils interposed between pairs of adjacent reinforcement fiber layers. 13. The preform for composite manufacturing of claim 11 adapted for resin infusion. 14. The preform for composite manufacturing of claim 11 wherein the preform is stabilized. 15. The preform for composite manufacturing of claim 11 wherein the toughening element is in a solid phase and substantially remains in a soluble phase when contacted with a curable resin matrix at a first temperature for infusion, which is less than a second temperature for substantial dissolution of the toughening element. 16. The preform for composite manufacturing of claim 11 wherein the toughening element substantially reacts with the curable resin matrix at the second temperature. 17. The toughening element of claim 1 wherein the adjacent plies of a structural reinforcement fiber are in the form of a woven or fabric structure. 18. The toughening element of claim 1 wherein the adjacent plies of a structural reinforcement fiber are in the form of unwoven or unidirectional fibers.