Negative electrode current collector foil including iron based alloy layer sandwiched between copper layers and method for manufacturing the same

The invention claimed is: 1. A foil ( 5 b ) for a negative electrode collector of a secondary battery, comprising: a three layer-structure Cu-coated foil ( 50 ) including an iron-based alloy layer ( 51 ) made of precipitation hardened stainless steel, and a pair of Cu layers ( 52 , 53 ) respectively disposed on opposite surfaces of the iron-based alloy layer and made of Cu or a Cu-based alloy, the three layer-structure Cu-coated foil for the negative electrode collector of a secondary battery having a thickness of 20 μm or less, a volume resistivity of 5 μΩ·cm or less measured in compliance with JIS-C2525:1999 and an elastic limit stress σ 0.01 of 700 MPa or more, wherein a metal element that constitutes the precipitation hardened stainless steel which is diffused into the pair of Cu layers exists as a precipitate in the pair of Cu layers. 2. The foil for a negative electrode collector of a secondary battery according to claim 1 , wherein each of the pair of Cu layers is a Cu-plated layer ( 252 , 253 ) made of the Cu or the Cu-based alloy. 3. The foil for a negative electrode collector of a secondary battery according to claim 1 , made of a clad material in which the pair of Cu layers are respectively bonded onto the opposite surfaces of the iron-based alloy layer. 4. The foil for a negative electrode collector of a secondary battery according to claim 1 , wherein the precipitation hardened stainless steel of which the iron-based alloy layer is made contains 15 mass % or more and 19 mass % or less of Cr, 6 mass % or more and 9 mass % or less of Ni, 0.5 mass % or more and 2.0 mass % or less of Al, 0.01 mass % or more and 0.3 mass % or less of C, 0.01 mass % or more and 0.3 mass % or less of N, a balance Fe, and inevitable impurities, some of the Cr, Ni, Al and Fe being diffused into the pair of Cu layers as the metal element. 5. A method for manufacturing a foil ( 5 b ) for a negative electrode collector of a secondary battery, wherein Cu or a Cu-based alloy is disposed in layers on opposite surfaces of an iron-based alloy plate material made of precipitation hardened stainless steel such that a Cu-coated material ( 150 b , 150 c ) including an iron-based alloy layer ( 51 ) made of the precipitation hardened stainless steel and a pair of Cu layers ( 52 , 53 ) respectively disposed on opposite surfaces of the iron-based alloy layer and made of the Cu or the Cu-based alloy, the Cu-coated material having a first thickness of more than 20 μm is produced by annealing at a temperature of 850° C. or higher and 1050° C. or lower for a holding time of 0.3 minutes or more and 3 minutes or less and rolling; and the Cu-coated material is rolled to a second thickness of 20 μm or less, and thereafter aging treatment is performed at a temperature of 500° C. or higher and 650° C. or lower for a holding time of 0.5 minutes or more and 3 minutes or less such that a three layer-structure Cu-coated foil having a thickness of 20 μm or less, a volume resistivity of 5 μΩ·cm or less measured in compliance with JIS-C2525:1999, an elastic limit stress σ 0.01 of 700 MPa or more and a metal element constituting the precipitation hardened stainless steel which is diffused into the pair of Cu layers exists as a precipitate in the pair of Cu layers is obtained. 6. The method for manufacturing a foil for a negative electrode collector of a secondary battery according to claim 5 , wherein the Cu-coated material having the first thickness is rolled to the second thickness under a condition of a rolling reduction of 70% or more. 7. The method for manufacturing a foil for a negative electrode collector of a secondary battery according to claim 5 , wherein the opposite surfaces of the iron-based alloy plate material is plated with the Cu or the Cu-based alloy such that the Cu-coated material having the first thickness, in which the pair of Cu layers including Cu-plated layers ( 252 , 253 ) made of the Cu or the Cu-based alloy are formed on the opposite surfaces of the iron-based alloy layer, is produced. 8. The method for manufacturing a foil for a negative electrode collector of a secondary battery according to claim 5 , wherein a Cu-coated intermediate material ( 150 a ) in which a pair of Cu plate materials made of the Cu or the Cu-based alloy are bonded onto the opposite surfaces of the iron-based alloy plate material is produced, the Cu-coated intermediate material is rolled to the first thickness, and thereafter the annealing is performed such that the Cu-coated material made of a clad material and having the first thickness is produced.