Thermoplastic composite material made of a semi-crystalline polyamide and method for manufacturing same

The invention claimed is: 1. A thermoplastic composite material, said thermoplastic composite material comprising reinforcing fibers or a fibrous reinforcement, and a thermoplastic matrix which impregnates said reinforcing fibers or said fibrous reinforcement, wherein said thermoplastic matrix comprises one or more polyamides which comprise different amide units A and B and, optionally, amide units C and D, selected as follows: A: is a major amide unit present at a molar content ranging from 55% to 95%, chosen from x.T units, where x is a C 9 to C 18 , linear aliphatic diamine, and where T is terephthalic acid, B: is an amide unit different than A, said unit B being present at a molar content ranging from 5% to 45%, according to the Tm of the polyamide based on unit A and said amide unit B being chosen from x′.T units, where x′ is chosen from: B1) a branched aliphatic diamine bearing a single methyl or ethyl branching and having a main chain length which is different by at least two carbon atoms compared with the main chain length of the diamine x of said associated unit A, or B2) m-xylylenediamine (MXD) or B3) a C 4 to C 18 linear aliphatic diamine when, in the unit A, said diamine x is a C 11 to C 18 linear aliphatic diamine and x′ is a C 9 to C 18 diamine when, in the unit A, said diamine x is a C 9 or C 10 diamine, C: optional amide unit different than A and than B, chosen from amide units based on a cycloaliphatic and/or aromatic structure or based on x′T as defined above for B but with x′ being different than x′ for the unit B, D: optional amide unit different than A, than B and than C when C is present, and chosen from the aliphatic amide units derived from: amino acids or lactams which are C 6 to C 12 , or mixtures thereof, the reaction of a C 6 to C 18 , linear aliphatic diacid and of a C 6 to C 18 , linear aliphatic diamine, or mixtures thereof, and under the condition that the sum of the molar contents of A+B+C+D is equal to 100%; wherein at least one polyamide of the one or more polyamides is a semi-crystalline polyamide polymer with a glass transition temperature Tg of at least 90° C. and with a melting temperature Tm below or equal to 280° C., wherein a difference between the melting temperature Tm and crystallization temperature Tc, (Tm−Tc), of said semi-crystalline polyamide, does not exceed 50° C.; and wherein enthalpy of crystallization of said semi-crystalline polyamide, measured by differential scanning calorimetry (DSC) according to standard ISO 11357-3, is greater than 40 J/g. 2. The thermoplastic composite material as claimed in claim 1 , wherein said amide unit C is present and partially replaces B at a molar content ranging up to 25% relative to said unit B. 3. The thermoplastic composite material as claimed in claim 1 , wherein said unit D is present and partially replaces B at a molar content ranging up to 70%, relative to said unit B. 4. The thermoplastic composite material as claimed in claim 1 , wherein said amide unit A is present with a molar content ranging from 55% to 80%, relative to all the units of said polymer. 5. The thermoplastic composite material as claimed in claim 1 , wherein said unit B corresponds to x′T with x′ being 2-methylpentamethylenediamine (MPMD). 6. The thermoplastic composite material as claimed in claim 1 , wherein said unit B corresponds to x′T with x′ chosen according to option B2), x′ being MXD. 7. The thermoplastic composite material as claimed in claim 1 , wherein said unit B corresponds to a linear aliphatic diamine according to option B3). 8. The thermoplastic composite material as claimed in claim 1 , wherein the units A and B are selected as follows: for the unit A being 9T, said unit B is selected from: 10T, 11T, 12T, 13T, 14T, 15T, 16T, 17T and 18T, 2-methylpentamethylenediamine (MPMD).T and MXD.T, with a molar content of B ranging from 30% to 45%, for the unit A being 10T, said unit B is selected from: 9T, 11T, 12T, 13T, 14T, 15T, 16T, 17T and 18T, MPMD.T and MXD.T, with a molar content of B ranging from 25% to 45%, for the unit A being 11T, said unit B is selected from: 9T, 10T, 12T, 13T, 14T, 15T, 16T, 17T and 18T, MPMD.T and MXD.T, with a molar content of B ranging from 20% to 45%, for the unit A being 12T, said unit B is selected from: 9T, 10T, 11T, 13T, 14T, 15T, 16T, 17T and 18T, MPMD.T and MXD.T, with a molar content of B ranging from 20% to 45%. 9. The thermoplastic composite material as claimed in claim 5 , wherein a part of the unit B which is up to 70 mol %, relative to B, is replaced with a unit C and/or D. 10. The thermoplastic composite material as claimed in claim 1 , wherein the thermoplastic composite material comprises a fibrous reinforcement with long fibers with L/D>1000. 11. A process for manufacturing a final composite part comprising the thermoplastic composite material as defined in claim 1 , wherein the process comprises at least one step of molding or processing said thermoplastic composite material. 12. The process as claimed in claim 11 , wherein the process comprises the following steps: i) impregnation in the molten state of a fibrous reinforcement with the thermoplastic matrix, in an open or closed mold or outside the mold, in order to obtain the thermoplastic composite material, ii) processing or molding of said thermoplastic composite material of step i) so as to form the final composite part in a mold or with another processing system. 13. A polyamide polymer which comprises different amide units A and B and, optionally, amide units C and D, selected as follows: A: is a major amide unit present at a molar content ranging from 55% to 95%, chosen from x.T units, where x is a C 9 to C 18 , linear aliphatic diamine, and where T is terephthalic acid, B: is an amide unit different than A, said unit B being present at a molar content ranging from 5% to 45%, according to the Tm of the polyamide based on unit A and said amide unit B being chosen from x′.T units, where x′ is chosen from: B1) a branched aliphatic diamine bearing a single methyl or ethyl branching and having a main chain length which is different by at least two carbon atoms compared with the main chain length of the diamine x of said associated unit A, or B2) m-xylylenediamine (MXD) or B3) a C 4 to C 18 linear aliphatic diamine when, in the unit A, said diamine x is a C 11 to C 18 linear aliphatic diamine and x′ is a C 9 to C 18 diamine when, in the unit A said diamine x is a C 9 or C 10 diamine, C: optional amide unit different than A and than B, chosen from amide units based on a cycloaliphatic and/or aromatic structure or based on x′T as defined above for B but with x′ being different than x′ for the unit B, D: optional amide unit different than A, than B and than C when C is present, and chosen from the aliphatic amide units derived from: amino acids or lactams which are C 6 to C 12 , or mixtures thereof, the reaction of a C 6 to C 18 , linear aliphatic diacid and of a C 6 to C 18 , linear aliphatic diamine, or mixtures thereof, and under the condition that the sum of the molar contents of A+B+C+D is equal to 100%; wherein the polymer is a semi-crystalline polyamide polymer with a glass transition temperature Tg of at least 90° C. and with a melting temperature Tm below or equal to 280° C., wherein a difference between the melting temperature Tm and crystallization temperature Tc, (Tm−Tc), of said semi-crystalline polyamide, does not exceed 50° C.; and wherein enthalpy of crystallization of said semi-crystalline polyamide, measured by differential scanning calorimetry (DSC) according to standard ISO 11357-3, is greater than 40 J/g.