Thermoplastic resin composition for wire-coating and heat resistant wire

The invention claimed is: 1. A thermoplastic resin composition comprising, (A) a thermoplastic polymer, (B) a softener for nonaromatic rubbers, (C) a metal hydrate, (D) an organic peroxide, (E) an antioxidant, and (F) a coupling agent, wherein said component (A) comprises: (a1) 5 mass % to less than 50 mass % of a propylene polymer having a melting point of 150° C. or higher; (a2) 10 mass % to less than 60 mass % of an ethylene polymer; (a3) 5 mass % to less than 50 mass % of one or more selected from the group consisting of a block copolymer of an aromatic vinyl compound and a conjugated diene compound, a block copolymer of an aromatic vinyl compound and isobutylene, and a hydrogenated product of a block copolymer of an aromatic vinyl compound and a conjugated diene compound; and (a4) 1 mass % to less than 30 mass % of one or more selected from the group consisting of an unsaturated carboxylic acid-modified olefin polymer, an unsaturated carboxylic acid-modified aromatic vinyl compound elastomer, and an epoxy group-containing olefin polymer; and a total of said components (a1), (a2), (a3) and (a4) is 100 mass %, wherein said component (a2) comprises: (a2-1) a copolymer of ethylene and an α-olefin having 4 to 10 carbon atoms, having a density of 860 to 935 Kg/m 3 ; and (a2-2) a polar ethylene copolymer, wherein said thermoplastic resin composition comprises: 70 to 95% by mass of said component (A); and 30 to 5% by mass of said component (B), with a total of said component (A) and said component (B) being 100 mass %, and based on the total of 100 parts by mass of said component (A) and said component (B), 30 to 150 parts by mass of said component (C); 0.01 to 1.0 part by mass of said component (D); more than 1 part by mass and 15 parts by mass or less of said component (E); and 0.1 to 8 parts by mass of said component (F), and wherein a volume change rate as gasoline resistance is 30% or less, wherein the volume change rate represents a volume change rate after a donut-shaped test specimen having an outer diameter of 22 mm and an inner diameter of 8 mm punched out from a 1 mm thick press sheet of the thermoplastic resin composition is immersed in gasoline at a temperature of 23° C. for 20 hour. 2. The thermoplastic resin composition according to claim 1 , wherein said component (E) comprises: (E-1) a hindered phenol antioxidant; and (E-2) a thioether antioxidant. 3. A wire comprising the thermoplastic resin composition according to claim 1 . 4. The wire according to claim 3 for vehicles. 5. A method for producing the wire according to claim 3 , comprising: (1) a step of melt-kneading (A) a thermoplastic polymer, (B) a softener for nonaromatic rubbers, (C) a metal hydrate, (D) an organic peroxide, (E) an antioxidant, (F) a coupling agent, and optional components to be used as desired at a temperature higher than or equal to the 1 minute half-life temperature of said component (D) for 30 seconds or longer to obtain the thermoplastic resin composition; and (2) a step of melting the thermoplastic resin composition and extruding the thermoplastic resin composition around a conductor or a twisted product formed of several insulating coating conductors to form a wire using the thermoplastic resin composition obtained in said step (1), without (3) a step of post-crosslinking treatment. 6. A method for producing a thermoplastic resin composition according to claim 1 , comprising at least any one of the steps selected from the group consisting of: a step of introducing all of (A) a thermoplastic polymer, (B) a softener for nonaromatic rubbers, (C) a metal hydrate, (D) an organic peroxide, (E) an antioxidant, (F) a coupling agent, and optional components to be used as desired into a melt kneader and melt kneading the mixture for 30 seconds or longer at a temperature higher than or equal to the 1 minute half-life temperature of said component (D) to obtain a thermoplastic resin composition; a step of introducing all of said components (A) to (D), (F) and the optional components to be used as desired into a melt kneader and after the melt kneading temperature has reached a temperature higher than or equal to the 1 minute half-life temperature of said component (D), introducing said component (E) into the melt kneader to obtain a thermoplastic resin composition; a step of firstly introducing all of said components (A) to (D), (F), and the optional components to be used as desired, and a part of said component (E) into a melt kneader and after the melt kneading temperature has reached a temperature higher than or equal to the 1 minute half-life temperature of said component (D), introducing the remainder of said component (E) into the melt kneader to obtain a thermoplastic resin composition; and a step of firstly introducing all of said component (D), and at least a part of said components (A) to (C), (F), and the optional components to be used as desired into a melt kneader, and after the melt kneading temperature has reached a temperature higher than or equal to the 1 minute half-life temperature of said component (D), introducing the remainder of said components (A) to (C), (F), and the optional components to be used as desired, and said component (E) into the melt kneader to obtain a thermoplastic resin composition. 7. A method for producing a wire, comprising: (1) a step of obtaining a thermoplastic resin composition by the method according to claim 6 ; (2) a step of melting the thermoplastic resin composition and extruding the thermoplastic resin composition around a conductor or a twisted product formed of several insulating coating conductors to form a wire using the thermoplastic resin composition obtained in said step (1); without (3) a step of post-crosslinking treatment. 8. A wire comprising the thermoplastic resin composition according claim 2 . 9. A method for producing the wire according to claim 4 , comprising: (1) a step of melt-kneading (A) a thermoplastic polymer, (B) a softener for nonaromatic rubbers, (C) a metal hydrate, (D) an organic peroxide, (E) an antioxidant, (F) a coupling agent, and optional components to be used as desired at a temperature higher than or equal to the 1 minute half-life temperature of said component (D) for 30 seconds or longer to obtain the thermoplastic resin composition; and (2) a step of melting the thermoplastic resin composition and extruding the thermoplastic resin composition around a conductor or a twisted product formed of several insulating coating conductors to form a wire using the thermoplastic resin composition obtained in said step (1), without (3) a step of post-crosslinking treatment. 10. A method for producing a thermoplastic resin composition according to claim 2 , comprising at least any one of the steps selected from the group consisting of: a step of introducing all of (A) a thermoplastic polymer, (B) a softener for nonaromatic rubbers, (C) a metal hydrate, (D) an organic peroxide, (E) an antioxidant, (F) a coupling agent, and optional components to be used as desired into a melt kneader and melt kneading the mixture for 30 seconds or longer at a temperature higher than or equal to the 1 minute half-life temperature of said component (D) to obtain a thermoplastic resin composition; a step of introducing all of said components (A) to (D), (F) and the optional components to be used as desired into a melt kneader and after the melt kneading temperature has reached a temperature higher than or equal to the 1 minute half-life temperature of said component (D), introducing said component (E) into the melt kneader to obtain a thermoplastic resin composition; a step of firstly introducing all of said components (A) to (D), (F), a