Method for granulating polyamide or polyamide composition

The invention claimed is: 1. A method for granulating a polyamide, comprising the steps of: melting polyamide (A), whose melt viscosity at glass transition temperature+160° C. and a shear rate of 100 s −1 is 3 Pa·s to 200 Pa·s and whose terminal amino group concentration is 5 μeq/g to 70 μeq/g, by heating to a range of glass transition temperature+160° C. to glass transition temperature+180° C.; and dropping the resultant in the molten state in granular forms onto a metal belt for solidification to obtain granules. 2. The method for granulating a polyamide according to claim 1 , wherein polyamide (A) is polyamide (A1) which comprises a diamine unit containing an aromatic diamine unit represented by General Formula (I-1) below or an alicyclic diamine unit represented by General Formula (I-2) below for 70 mol % or more, and a dicarboxylic acid unit containing at least one of a linear aliphatic dicarboxylic acid unit represented by General Formula (II-1) below and an aromatic dicarboxylic acid unit represented by General Formula (II-2) below for a total of 50 mol % or more: wherein, in Formula (II-1), n represents an integer of 2-18, and in Formula (II-2), Ar represents an arylene group. 3. The method for granulating a polyamide according to claim 1 , wherein the number average molecular weight derived from the terminal group concentration of polyamide (A) is 2000 to 13000. 4. The method for granulating a polyamide according to claim 1 , wherein a fore device of the metal belt comprises a normal pressure type or an applied pressure type melt polymerization vessel, and polyamide (A) in the molten state obtained by melt polymerization is continuously dropped in granular forms onto the metal belt and solidified to obtain granules. 5. The method for granulating a polyamide according to claim 1 , wherein a fore device of the metal belt comprises a single-screw or a twin-screw extruder, and polyamide (A) in the molten state is continuously dropped in granular forms onto the metal belt and solidified to obtain granules. 6. A method for granulating a polyamide composition, comprising the steps of: melting polyamide composition (B), which is obtained by mixing polyamide (A), whose melt viscosity at glass transition temperature+160° C. and a shear rate of 100 s −1 is 3 Pa·s to 200 Pa·s and whose terminal amino group concentration is 5 μeq/g to 70 μeq/g, with at least one of additional resin (C) and additive (D), by heating to a range of glass transition temperature of polyamide (A)+160° C. to glass transition temperature of polyamide (A)+180° C.; and dropping the resultant in the molten state in granular forms onto a metal belt for solidification to obtain granules. 7. The method for granulating a polyamide composition according to claim 6 , wherein polyamide (A) is polyamide (A1) which comprises a diamine unit containing an aromatic diamine unit represented by General Formula (I-1) below or an alicyclic diamine unit represented by General Formula (I-2) below for 70 mol % or more, and a dicarboxylic acid unit containing at least one of a linear aliphatic dicarboxylic acid unit represented by General Formula (II-1) below and an aromatic dicarboxylic acid unit represented by General Formula (II-2) below for a total of 50 mol % or more: wherein, in Formula (II-1), n represents an integer of 2-18, and in Formula (II-2), Ar represents an arylene group. 8. The method for granulating a polyamide composition according to claim 6 , wherein the number average molecular weight derived from the terminal group concentration of polyamide (A) is 2000 to 13000. 9. The method for granulating a polyamide composition according to claim 6 , wherein a fore device of the metal belt comprises a single-screw or a twin-screw extruder, and after melt-blending polyamide (A) with at least one of additional resin (C) and additive (D), the resulting mixture in the molten state is continuously dropped in granular forms onto the metal belt and solidified to obtain granules.