Method of producing laminate material

The invention claimed is: 1. A method of producing a laminate material, comprising: a peeling step of irradiating using a laser beam on a resin layer side surface of a laminate raw material in which a resin layer is laminated on at least one surface of a metal foil to peel the resin layer and the metal foil to thereby form a peeled portion, wherein the metal foil is an aluminum foil, wherein the aluminum foil and the resin layer are bonded via an adhesive layer, wherein the peeled portion is identifiable by reducing the gloss of the aluminum foil, wherein the peeling step includes forming the peeled portion by peeling at a bonding interface between the adhesive layer and the aluminum foil to form a recess in a surface of the aluminum foil thereby reducing a thickness of the aluminum foil. 2. The method of producing a laminate material as recited in claim 1 , wherein the laser is any one of an excimer laser, a YAG laser, and a YVO4 laser, and has a wavelength of 150 nm to 550 nm and an output of 3 W or more. 3. The method of producing a laminate material as recited in claim 1 , further comprising: a cutting-off step of cutting off the resin layer corresponding to the peeled portion to expose the metal foil to thereby form a metal exposed portion after the peeling step. 4. The method of producing a laminate material as recited in claim 3 , wherein the cutting off of the resin layer is performed with a physical blade or a laser blade. 5. The method of producing a laminate material as recited in claim 1 , wherein the laminate raw material is a double-sided laminate material in which a heat resistant resin layer is laminated on one of surfaces of the metal foil and a heat fusible resin layer is laminated on the other surface of the metal foil, and a first peeled portion is formed at a heat fusible resin layer side surface of the metal foil and a second peeled portion is formed at a heat fusible resin layer side surface or a heat resistant resin layer side surface of the metal foil. 6. The method of producing a laminate material as recited in claim 5 , wherein after the peeling step, a cutting-off step of cutting off of the heat fusible resin layer corresponding to the first peeled portion and the heat fusible resin layer or the heat resistant resin layer corresponding to the second peeled portion to expose the metal foil to thereby form a metal exposed portion is performed. 7. A method of producing a packaging body for a power storage device, comprising: laminating two laminate materials prepared by the method described in claim 6 with the heat fusible resin layers facing inward; and heat sealing edges of the laminate materials to form a battery element chamber for accommodating a battery element in which a metal exposed portion by the first peeled portion faces an inside of the battery element chamber and a metal exposed portion by the second peeled portion on an outer surface of the laminate material is arranged. 8. A method of producing a power storage device, comprising: sealing a battery element including a positive electrode element, a negative electrode element, a separator, and an electrolyte in the battery element chamber of the packaging body for a power storage device as recited in claim 7 .