Branched polyamide with different blocks

The invention claimed is: 1. A process for the preparation of a high molecular weight branched polyamide comprising the steps of: (1) a melt-mixing step which comprises providing (i) a linear polyamide (pre)polymer (X-1) consisting essentially of AA-BB repeat units, (ii) a linear polyamide (pre)polymer (X-2) consisting essentially of AB repeat units, and (iii) a branching agent, to a melt mixing apparatus and mixing and heating components (i)-(iii) in the melt-mixing apparatus thereby forming a mixed melt, and thereafter cooling the mixed melt to thereby form a solid mixture; and (2) a solid state post condensation step which comprises subjecting the solid mixture to post-condensation at elevated temperature in the solid state, thereby forming a high molecular weight branched polyamide, wherein the (pre)polymers (X-1) and (X-2) are provided in a weight ratio (X-1)/(X-2) in a range of 0.25-4; the (pre)polymer (X-1) and/or the (pre)polymer (X-2) have a viscosity number (VN), measured according to ISO 307, in a range of 50-250 mL/g; the branching agent is a branched polyamide oligomer/prepolymer (Y) comprising (a) a branching unit formed from a monomer C having at least three functional groups, wherein the at least three functional groups may be the same or different and are selected from the group consisting of amino groups, carboxylic acid functional groups and alkyl ester or acid chloride derivatives thereof, and (b) AA-BB repeat units and/or AB repeat units; the branching unit is present in an amount in a range of 0.05-1 mole %, relative to the total molar amount of AA repeat units, BB repeat units and AB repeat units of the (pre)polymers (X-1) and (X-2) and the branched polyamide oligomer/prepolymer (Y); the high molecular weight branched polyamide obtained after the solid state post condensation step has a relative viscosity (RV) measured according to ISO 307 of at least 2.5, and the AA repeat units represent units derived from a diamine monomer A, the BB repeat units represent units derived from a dicarboxylic monomer B and the AB repeat units represent units derived from an α,ω-amino acid or a cyclic lactam derivative thereof. 2. The process according to claim 1 , wherein the weight ratio (X-1)/(X-2) is in the range of 0.5-2. 3. The process according to claim 1 , wherein the polyamide oligomer/prepolymer (Y) consists essentially of AA-BB repeat units and branching units. 4. The process according to claim 1 , wherein the branched polyamide oligomer/prepolymer (Y) is a branched polyamide oligomer/prepolymer having repeat units, wherein the branched polyamide oligomer/prepolymer (Y) is a polymerization reaction product of a polyamide forming monomer mixture comprising: (A) a first monomer which is the diamine monomer A and/or a salt of the diamine monomer A, wherein the diamine monomer A has two amino functional groups, and (B) a second monomer which is the dicarboxylic monomer B and/or a salt of the dicarboxylic monomer B, wherein the dicarboxylic monomer B has two functional groups selected from the group consisting of carboxylic acid functional groups and alkyl ester or acid chloride derivatives thereof, and (C) a third monomer which is the monomer C, wherein repeat units are present in a molar amount according to Formula I and Formula II: Q =( MC*FC )/( MA+MB )  (Formula I) and R =(( MA* 2)+( MC*FCA ))/(( MB* 2)+( MC*FCB ))  (Formula II) wherein MA, MB and MC represent the molar amounts of repeat units derived from the monomers A, B and C, respectively; FC represent the functionality of monomer C, and is equal to FC-A+FC-B; FC-A is the number of the amino functional groups comprised by monomer C; FC-B is the number of carboxylic acid functional groups and the alkyl ester or acid chloride derivatives thereof comprised by monomer C; Q is a number in the range of 0.06-1.00; and R is a number in the range of 0.7-1.3; and wherein the polyamide oligomer/prepolymer has a viscosity number (VN), measured according to ISO 307, in the range of 7-30 mL/g. 5. The process according to claim 1 , wherein the branched oligomer/prepolymer (Y) has a number average molecular weight (Mn) measured by Size Exclusion Chromatography (SEC) in a range of 600-3500 g/mol. 6. The process according to claim 1 , wherein the branched oligomer/prepolymer (Y) has carboxylic acid functional end groups (CFE) and amino functional end groups (AFE), and wherein the ratio between the number of the carboxyl functional end groups (N-CFE) and the number of the amino functional end groups (N-AFE) in the oligomer/prepolymer is in a range of 0.5-2.0. 7. The process according to claim 1 , wherein the components are mixed in the following amounts: 75-99 wt. % of the linear polyamide (pre)polymers (X-1) and (X-2), and 1-25 wt. % of the branched polyamide oligomer/prepolymer (Y), wherein the weight percentages (wt. %) are relative to the total weight of (X-1), (X-2) and (Y). 8. The process according to claim 1 , wherein the melt-mixing step (1) comprises melt-mixing the polyamide (pre)polymer (X-1), the polyamide (pre)polymer (X-2) and the branching agent in the melt mixing apparatus together with one or more other components. 9. The process according to claim 1 , wherein the weight ratio (X-1)/(X-2) is in the range of 0.75-1.35. 10. The process according to claim 1 , wherein the monomer C is at least one monomer selected from the group of monomers consisting of (i) a monomer having at least three amine groups, (ii) a monomer having at least three carboxylic acid functional groups or alkyl ester or acid chloride derivatives of carboxylic acid functional groups, (iii) a monomer having at least one amine group and at least two carboxylic acid functional groups or alkyl ester or acid chloride derivatives of carboxylic acid functional groups, and (iv) a monomer having at least two amine groups and at least one carboxylic acid functional group or an alkyl ester or an acid chloride derivative of a carboxylic acid functional group.