Method for producing a seamless pressure vessel for storing hydrogen

What is claimed is: 1. A method for producing a seamless pressure vessel for storing hydrogen, the method comprising: producing a multilayered composite sheet metal workpiece having at least a steel carrier layer, and a shielding layer that is resistant to hydrogen embrittlement; flow forming the multi-layer composite sheet metal workpiece into a seamless hollow body having an inner surface and an outer surface, the shielding layer being the inner surface layer thereof, said seamless hollow body configured to be used as at least a part of a pressure vessel; encapsulating the seamless hollow body with one or more reinforcing fibers, wherein the reinforcing fibers are pre-infiltrated with thermosetting plastic; inserting the seamless hollow body into a mold; while in the mold, pressurizing the seamless hollow body to an internal pressure of more than 500 bar so as to cause the thermosetting plastic to impregnate the reinforcing fibers and the seamless hollow body to plastically form to the final geometry of the pressure vessel; and releasing the internal pressure after the plastic has cured such that an elastic prestress is generated in the seamless hollow body. 2. The method of claim 1 , further comprising: heating the seamless hollow body; and quenching the seamless hollow body in a quenching liquid so as to heat treat and harden the seamless hollow body, wherein the carrier layer of the multilayered composite sheet metal workpiece is hardenable steel. 3. The method of claim 2 , wherein the seamless hollow body that has been heat treated and hardened has a low hardness after heat treating. 4. The method of claim 1 , wherein the one or more reinforcing fibers are at least one of a dry reinforcing fiber, or a reinforcing fiber pre-impregnated with one or more of a thermosetting or thermally curable plastic. 5. The method of claim 4 , wherein said encapsulating step includes: passing at least one continuous fiber through an impregnation bath containing thermally curable synthetic resin; and winding the at least one continuous fiber around the seamless hollow body. 6. The method of claim 1 , wherein the one or more reinforcing fibers include at least one of a dry reinforcing fiber fabric, or a reinforcing fiber fabric pre-impregnated with one or more of a thermosetting or thermally curable plastic.