Battery packaging material having aluminium alloy foil with reduced cracking during molding, and battery including the same

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 layer in this order, wherein: the heat-sealable layer is composed of a resin comprising a polyolefin backbone, a thickness of the base material layer is more than 35 μm and 50 μm or less, a thickness X of the aluminum alloy foil is 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. 2 . The battery packaging material according to claim 1 , wherein the proportion (%) 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: proportion (%) of the total area of the {111} plane in the total area of crystal planes of the face-centered cubic structure ≥−1.1X+66, where X is measured in μm. 3 . The battery packaging material according claim 1 , wherein the aluminum alloy foil comprises iron. 4 . The battery packaging material according to claim 1 , comprising, on the surface of the aluminum alloy foil, an acid resistance film containing a cerium compound. 5 . The battery packaging material according to claim 1 , 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. 6 . The battery packaging material according to claim 1 , 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. 7 . The battery packaging material according claim 1 , 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. 8 . A battery packaging material comprising a laminate comprising at least a base material layer, an aluminum alloy foil, a resin layer, and a heat-sealable layer in this order, wherein: the heat-sealable layer is composed of a resin comprising a polyolefin backbone, the resin layer is a cured product of a resin composition comprising an acid-modified polyolefin and a curing agent, the base material layer is a laminate of a polyester film and a polyamide film, a thickness of the base material layer is more than 35 μm and 50 μm or less, a thickness X of the aluminum alloy foil is 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. 9 . The battery packaging material according to claim 8 wherein the resin layer is an adhesive layer. 10 . A battery packaging material comprising a laminate comprising at least a base material layer, an aluminum alloy foil, a resin layer, and a heat-sealable layer in this order, wherein: the heat-sealable layer is composed of a resin comprising a polyolefin backbone, the resin layer is a cured product of a resin composition comprising an acid-modified polyolefin and a curing agent, the curing agent is an epoxy-based curing agent, a polyfunctional isocyanate-based curing agent, a carbodiimide-based curing agent, or an oxazoline-based curing agent, the base material layer is a laminate of a polyester film and a polyamide film, a thickness of the base material layer is more than 35 μm and 50 μm or less, a thickness X of the aluminum alloy foil is 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. 11 . The battery packaging material according to claim 10 wherein the resin layer is an adhesive layer. 12 . A battery comprising a battery element comprising at least a positive electrode, a negative electrode, and an electrolyte, the battery element being housed in a packaging material formed of the battery packaging material according to claim 1 . 13 . A battery comprising: a packaging material formed of the battery packaging material according to claim 10 ; and a battery element housed in the packaging material, the battery element comprising at least a positive electrode, a negative electrode, and an electrolyte.