Aluminum alloy substrate for magnetic disks, method for producing same, and magnetic disk using this aluminum alloy substrate for magnetic disks

The invention claimed is: 1. An aluminum alloy substrate for a magnetic disk, comprising an aluminum alloy consisting of: 0.4 to 3.0 mass % of Fe, 0.1 to 6.0 mass % of Mg, greater than 0 to 0.4 mass % of Si, and optionally at least one selected from the group consisting of 0.1 to 3.0 mass % of Mn, 0.1 to 3.0 mass % of Ni, 0.005 to 1.000 mass % of Cu, 0.01 to 1.00 mass % of Cr, and 0.01 to 1.00 mass % of Zr, 0.005 to 1.000 mass % of Zn, and a total content of Ti, B, and V of 0.005 to 0.500 mass %, with a balance of Al and unavoidable impurities, wherein a boundary length of a second phase particle having a longest diameter of 3 μm or more is 10 mm/mm 2 or more in a metal structure. 2. The aluminum alloy substrate according to claim 1 , wherein at least one of the Mn, Ni, Cu, Cr, and Zr is present in the aluminum alloy. 3. The aluminum alloy substrate according to claim 2 , wherein the Zn is present in the aluminum alloy. 4. The aluminum alloy substrate according to claim 3 , wherein at least one of the Ti, B, and V is present in the aluminum alloy. 5. The aluminum alloy substrate according to claim 2 , wherein at least one of the Ti, B, and V is present in the aluminum alloy. 6. The aluminum alloy substrate according to claim 1 , wherein the Zn is present in the aluminum alloy. 7. The aluminum alloy substrate according to claim 1 , wherein at least one of the Ti, B, and V is present in the aluminum alloy. 8. The aluminum alloy substrate according to claim 1 , wherein an amount of solid solution of Fe in the aluminum alloy substrate is 0.0010 mass % or more. 9. The aluminum alloy substrate according to claim 1 , wherein a proof stress of the aluminum alloy substrate is 35 MPa or more after heating at 300° C. for 3 hours in atmospheric air. 10. The aluminum alloy substrate according to claim 1 , wherein both surfaces of a core material using the aluminum alloy are clad with a sheath material comprising pure Al or an Al—Mg-based alloy. 11. A magnetic disk wherein an electroless Ni—P plating treatment layer and a magnetic layer formed thereon are disposed on a surface of the aluminum alloy substrate according to claim 1 . 12. A method for producing the aluminum alloy substrate according to claim 1 , the method comprising: a casting step of casting an ingot using an aluminum alloy; a hot-rolling step of hot-rolling the ingot; a cold-rolling step of cold-rolling the hot-rolled sheet; a disk blank stamping step of stamping the cold-rolled sheet to have an annular shape; a pressurization annealing step of subjecting the stamped disk blank to pressurization annealing; and a cutting/grinding step of performing cutting work and grinding work of the stamped disk blank subjected to the pressurization annealing. 13. The method according to claim 12 , further comprising a homogenization heat treatment step of performing homogenization heat treatment of the ingot between the casting step and the hot-rolling step. 14. The method according to claim 12 , further comprising an annealing treatment step of annealing the rolled sheet before or in the cold rolling. 15. A method for producing the aluminum alloy substrate according to claim 10 , the method comprising: a core material casting step of casting an ingot for a core material using an aluminum alloy; a sheath material casting step of casting an ingot for a sheath material using pure Al or an Al—Mg-based alloy; a sheath material step of performing homogenization treatment of the ingot for a sheath material and then hot-rolling the ingot to make a sheath material; a joined material step of joining the sheath material to each of both surfaces of the ingot for a core material to make a joined material; a hot-rolling step of hot-rolling the joined material; a cold-rolling step of cold-rolling the hot-rolled sheet; a disk blank stamping step of stamping the cold-rolled sheet to have an annular shape; a pressurization annealing step of subjecting the stamped disk blank to pressurization annealing; and a cutting/grinding step of performing cutting work and grinding work of the stamped disk blank subjected to the pressurization annealing. 16. The method according to claim 15 , further comprising a homogenization heat treatment step of performing homogenization heat treatment of the joined material between the joined material step and the hot-rolling step. 17. The method according to claim 15 , further comprising an annealing treatment step of annealing the rolled sheet before or in the cold rolling.