Method of manufacturing pressure accumulator

The invention claimed is: 1. A method of manufacturing a pressure accumulator, using an AE signal for the pressure accumulator, the method comprising: a first estimation step of estimating with an AE sensor provided at the pressure accumulator, a range of stress levels at each of which a damage AE signal generated from the pressure accumulator because of damage of material of the pressure accumulator is in a predetermined state; and a first design step of designing the pressure accumulator such that a minimum thickness of the pressure accumulator is determined based on the stress level range estimated in the first estimation step, wherein in the first estimation step, the AE sensor provided at the pressure accumulator estimates that the range of the stress levels at each of which the damage AE signal generated from the pressure accumulator because of the damage of the material is in the predetermined state is a range between stress levels that are 0.25 times to 1.50 times higher than the level of a fatigue limit stress. 2. The method of claim 1 , further comprising: a second estimation step of estimating a fatigue limit until which hydrogen degradation in the fatigue characteristic does not become apparent, based on influence of hydrogen on a fatigue characteristic of the material of the pressure accumulator; and a second design step of designing the pressure accumulator such that the minimum thickness of the pressure accumulator is determined based on a stress level lower than or equal to the fatigue limit estimated in the second estimation step. 3. A method of manufacturing a pressure accumulator, using an AE signal for the pressure accumulator, the method comprising: a first estimation step of estimating with an AE sensor provided at the pressure accumulator, a range of stress levels at each of which a damage AE signal generated from the pressure accumulator because of damage of material of the pressure accumulator is in a predetermined state; and a first design step of designing the pressure accumulator such that a minimum thickness of the pressure accumulator is determined based on the stress level range estimated in the first estimation step, and a removal step of removing a decarburized layer on at least an inner surface of the inner surface and an outer surface of a base material of the pressure accumulator. 4. The method of claim 1 , wherein the pressure accumulator includes an AE sensor provided at the pressure accumulator and configured to detect the AE signal. 5. The method of claim 1 , wherein the pressure accumulator includes: a container made of metal and having an opened portion; and a lid member provided at the opened portion of the container to close the opened portion. 6. The method of claim 5 , wherein AE sensors including the AE sensor are provided at one or both of the container and the lid member. 7. The method of claim 5 , wherein the container is a metallic cylinder member having both end portions that are opened, and lid members including the lid member are provided to close the opened portions of the both end portions of the metallic cylinder member. 8. The method of claim 7 , wherein the pressure accumulator comprises a carbon-fiber reinforced resin member that covers an outer circumferential portion of the metallic cylinder member.