Aluminium alloy foil with reduced cracking during molding, battery packaging material, and battery

The invention claimed is: 1. A battery packaging material comprising a laminate comprising at least a base material layer, an aluminum alloy foil, and a heat-sealable resin layer in this order, wherein the aluminum alloy has the compositions defined in JIS H4160: 1994 A8021H-O, JIS H4160: 1994 A8079H-O, JIS H4000: 1994 A8021P-O, or JIS H4000: 1994 A8079P-O; with respect to a cross section obtained by cutting the aluminum alloy foil in a vertical direction that is perpendicular to both a rolling direction of the aluminum alloy foil and a surface of the aluminum alloy foil, a proportion of a total area of a {111} plane in a total area of crystal planes of a face-centered cubic structure, obtained using an EBSD method, is 10% or more; and with respect to the cross section, a number average grain diameter R of crystals in the face-centered cubic structure, obtained using the EBSD method, satisfies the following equation: number average grain diameter R≤ 0.056 X+ 2.0, where X is a thickness of the aluminum alloy foil, R and X are measured in μm. 2. A battery packaging material comprising a laminate comprising at least a base material layer, an aluminum alloy foil, and a heat-sealable resin layer in this order, wherein: with respect to a cross section obtained by cutting the aluminum alloy foil in a vertical direction that is perpendicular to both a rolling direction of the aluminum alloy foil and a surface of the aluminum alloy foil, a proportion of a total area of a {111} plane in a total area of crystal planes of a face-centered cubic structure, obtained using an EBSD method, is 10% or more; and with respect to the cross section, a number average grain diameter R of crystals in the face-centered cubic structure, obtained using the EBSD method, satisfies the following equation: number average grain diameter R≤ 0.056 X+ 2.0, where: X is a thickness of the aluminum alloy foil, R and X are measured in μm, and the upper limit of the R value is 4.5 μm. 3. A battery packaging material comprising a laminate comprising at least a base material layer, an aluminum alloy foil, and a heat-sealable resin layer in this order, wherein: a thickness X of the aluminum alloy foil is: 3 μm or more and 40 μm or less, or more than 40 μm and 80 μm or less; with respect to a cross section obtained by cutting the aluminum alloy foil in a vertical direction that is perpendicular to both a rolling direction of the aluminum alloy foil and a surface of the aluminum alloy foil, a proportion of a total area of a {111} plane in a total area of crystal planes of a face-centered cubic structure, obtained using an EBSD method, is 10% or more; and with respect to the cross section, a number average grain diameter R of crystals in the face-centered cubic structure, obtained using the EBSD method, satisfies the following equation: number average grain diameter R≤ 0.056 X+ 2.0, where R and X are measured in μm. 4. The battery packaging material according to claim 3 , wherein a standard deviation St of a grain diameter of the aluminum alloy foil satisfies the following equation: standard deviation St of the grain diameter ≤0.09X+0.5. 5. The battery packaging material according claim 3 , wherein the aluminum alloy foil comprises iron. 6. The battery packaging material according to claim 3 , wherein the percentage of the total area of the {111} plane in the total area of crystal planes of the face-centered cubic structure satisfies the following equation: percentage of the total area of the {111} plane in the total area of crystal planes of the face-centered cubic structure≥−1.1 X+ 66. 7. The battery packaging material according to claim 3 , comprising, on the surface of the aluminum alloy foil, an acid resistance film containing at least one element selected from the group consisting of phosphorus, chromium, and cerium. 8. The battery packaging material according to claim 3 , comprising, on the surface of the aluminum alloy foil, an acid resistance film, wherein when analysis of the acid resistance film is performed using time-of-flight secondary ion mass spectrometry, a peak derived from at least one of Ce + and Cr + is detected. 9. The battery packaging material according claim 3 , comprising, on the surface of the aluminum alloy foil, an acid resistance film containing at least one selected from the group consisting of a phosphorus compound salt, a chromium compound, a fluorine compound, and a triazine-thiol compound. 10. The battery packaging material according to claim 3 , comprising, on the surface of the aluminum alloy foil, an acid resistance film containing a cerium compound. 11. The battery packaging material according to claim 3 , wherein two or more types of lubricants are present on at least one of a surface and an inside of the base material layer, and/or two or more types of lubricants are present on at least one of a surface and an inside of the heat-sealable resin layer. 12. The battery packaging material according to claim 3 , wherein at least two selected from the group consisting of saturated fatty acid amides, unsaturated fatty acid amides, substituted amides, methylolamides, saturated fatty acid bisamides, unsaturated fatty acid bisamides, fatty acid ester amides and aromatic bisamides are present on at least one of a surface and an inside of the base material layer. 13. The battery packaging material according to claim 3 , wherein a lubricant is present on a surface of the base material layer in an amount of 3 mg/m 2 or more. 14. The battery packaging material according to claim 3 , wherein a lubricant is present on a surface of the heat-sealable resin layer in an amount of 10 mg/m 2 or more. 15. The battery packaging material according to claim 3 , wherein two or more types of lubricants are present on at least one of a surface and an inside of the heat-sealable resin layer. 16. The battery packaging material according to claim 3 , wherein at least two selected from the group consisting of saturated fatty acid amides, unsaturated fatty acid amides, substituted amides, methylolamides, saturated fatty acid bisamides, unsaturated fatty acid bisamides, fatty acid ester amides and aromatic bisamides are present on at least one of a surface and an inside of the heat-sealable resin layer. 17. The battery packaging material according to claim 3 , wherein the heat-sealable resin layer comprises a resin containing a polyolefin backbone. 18. The battery packaging material according to claim 3 , wherein the heat-sealable resin layer comprises one selected from the group consisting of polyolefin, cyclic polyolefin, acid-modified polyolefin, and acid-modified cyclic polyolefin. 19. The battery packaging material according to claim 3 , wherein the heat-sealable resin layer comprises a blend polymer of two or more resin components. 20. The battery packaging material according to claim 3 , wherein the thickness of the base material layer is: 35 μm or less, or more than 35 μm and 50 μm or less. 21. The battery packaging material according to claim 3 , wherein the base material layer comprises: a laminate of a polyester film and a polyamide film, a laminate of a polyester film and a polyester film, or a laminate of a polyamide film and a polyamide film. 22. The battery packaging material according to claim 3 , wherein the battery packaging material is colored. 23. The battery packaging material according to claim 3 , in which t