Compositions comprising a fiber material and a thermoplastic binder

The invention claimed is: 1. A fiber preform for embedding in a two-component polyurethane matrix resin to form a fiber-reinforced composite, wherein the fiber preform includes a fiber material comprising one or more fibers, the fibers held together by a binder, wherein the binder comprises at least one thermoplastic, hot melt polyurethane polymer adhesive (A) that is essentially free of reactive isocyanate groups; wherein said thermoplastic, hot melt polyurethane polymer adhesive (A) comprises a reaction product of (i) at least one polyester polyol; (ii) at least one polyisocyanate; and (iii) optionally at least one diol which is different from the at least one polyester polyol (i); wherein the molar ratio of the NCO groups of said polyisocyanate (ii) to the sum of OH groups of said polyester polyol (i) and said optionally containing diol (iii) is less than 1.00:1; and wherein said polyester polyol (i) comprises (a) at least one semi-crystalline polyester polyol having a melting point (T m ) of from 40 to 180° C.; and (b) at least one non-crystalline polyester polyol. 2. The fiber preform according to claim 1 , wherein the at least one non-crystalline polyester polyol (b) comprises (b1) a non-crystalline polyester polyol having a number average molecular weight (M n ) of less than 750 g/mol; and (b2) a non-crystalline polyester polyol having a number average molecular weight (M n ) of at least 750 g/mol. 3. The fiber preform according to claim 1 , wherein the at least one thermoplastic, hot melt polyurethane polymer adhesive (A) has a number average molecular weight (M n ) of from 5,000 to 80,000 g/mol. 4. The fiber preform according to claim 1 , wherein the at least one polyester polyol (i) which an ortho-phthalate. 5. The fiber preform according to claim 1 , wherein the at least one thermoplastic, hot melt polyurethane polymer adhesive (A) comprises a first thermoplastic polyurethane polymer (A1) and a second thermoplastic polyurethane polymer (A2), wherein the first thermoplastic polyurethane polymer (A1) has a number average molecular weight (M n ) of less than 25,000 g/mol; wherein the second thermoplastic polyurethane polymer (A2) has a number average molecular weight (M n ) of at least 25,000 g/mol; and wherein the weight ratio of (A1) to (A2) is 5:95 to 95:5. 6. The fiber preform according to claim 1 , wherein the at least one diol (iii) was present in the reaction and the at least one diol (iii) comprises at least a primary and a secondary OH group and/or wherein the at least one diol (iii) comprises at least two primary OH groups. 7. The fiber preform according to claim 1 , wherein the binder comprises 50 to 99.9 wt.-% of the at least one thermoplastic, hot melt polyurethane polymer adhesive (A); and 0.1 to 50 wt.-% of additives, based on the total weight of the said binder. 8. The fiber preform according to claim 7 , wherein the additives comprise stabilizers, adhesion promoters, tackifiers, fillers, plasticizers and further thermoplastic polymers which are different from the at least one thermoplastic, hot melt polyurethane polymer adhesive (A), or a combination thereof. 9. The fiber preform according to claim 1 , wherein the fiber material contains fibers selected from the group consisting of glass fibers, synthetic fibers, carbon fibers, boron fibers, ceramic fibers, metal fibers, natural fibers, and combinations thereof. 10. The fiber preform according to claim 1 , in the form of a mat, woven fabric, nonwoven fabric, non-crimped fabric, knitted fabric, plies, or roving. 11. An article comprising the fiber preform of claim 1 . 12. A railway vehicle, automotive vehicle, aircraft vehicle, boat, space vehicle, motorbike, bicycle, sporting good, helmet, functional clothing, shoe, construction part or wind turbine component, comprising the fiber preform of claim 1 . 13. A fiber-reinforced composite comprising the fiber preform of claim 1 embedded in cured reaction products of a thermosetting polyurethane polymer, wherein the fiber-reinforced composite comprises more than 30% of the fiber preform of claim 1 by volume based on the total volume of said fiber-reinforced composite. 14. The fiber-reinforced composite according to claim 13 , wherein the thermosetting polyurethane polymer is a two-component thermosetting polyurethane resin comprising: at least one polyol (I) having a number average molecular weight (M n ) of less than 3,000 g/mol; at least one polyisocyanate (II); wherein the molar ratio of the OH groups of said polyol (I) to the NCO groups of said polyisocyanate (II) is from 2:1 to 1:10. 15. The fiber-reinforced composite according to claim 13 , wherein the thermosetting polyurethane polymer is a two-component polyurethane matrix resin comprising: at least one polyol (I) having a number average molecular weight (M n ) of less than 3,000 g/mol; at least one polyisocyanate (H); wherein the molar ratio of the OH groups of said polyol (I) to the NCO groups of said polyisocyanate (II) is from 2:1 to 1:5. 16. The fiber-reinforced composite according to claim 13 , wherein the thermosetting polyurethane polymer is a two-component polyurethane matrix resin comprising: at least one polyol (I) having a number average molecular weight (M n ) of less than 3,000 g/mol; at least one polyisocyanate (II); wherein the molar ratio of the OH groups of said polyol (I) to the NCO groups of said polyisocyanate (II) is from 2:1 to 1:2. 17. An article comprising the fiber-reinforced composite of claim 13 . 18. A railway vehicle, automotive vehicle, aircraft vehicle, boat, space vehicle, motorbike, bicycle, sporting good, helmet, functional clothing, shoe, construction part or wind turbine component, comprising the fiber-reinforced composite of claim 13 . 19. A method for the manufacture of fiber-reinforced composites comprising the steps: 1) providing an external mold; 2) disposing the fiber preform of claim 1 within the mold; 3) introducing a mixture of a two-component thermosetting polyurethane resin comprising: at least one polyol (I) having a number average molecular weight (M n ) of less than 3,000 g/mol; and at least one polyisocyanate (II); wherein the molar ratio of the OH groups of said polyol (I) to the NCO groups of said polyisocyanate (II) is from 2:1 to 1:10 into said mold under pressure and/or vacuum; and 4) curing said mixture at a temperature of up to 140° C.