Bipolar plate for a fuel cell, and a method manufacturing the same

What is claimed is: 1. A method of manufacturing a bipolar plate for a fuel cell, the method comprising: forming a first plate to include a first bead seal extending along a centerline and having a first inner lateral edge and a first outer lateral edge; positioning the first plate against a second plate; positioning an outer weld line relative to the first outer lateral edge to define a first value for an outer gap distance in a first region of the first bead seal to provide a first stiffness; positioning the outer weld line relative to the first outer lateral edge to define a second value for the outer gap distance in a second region of the first bead seal to provide a second stiffness; welding the first plate to the second plate along the outer weld line; wherein the outer weld line is laterally spaced from the first outer lateral edge the outer gap distance; wherein the outer gap distance varies with a position along the centerline to establish a variable stiffness of the first bead seal along the centerline; wherein the first value of the outer gap distance is less than the second value of the outer gap distance; and wherein the first stiffness is equal to the second stiffness. 2. The method set forth in claim 1 , wherein forming the first plate to include the first bead seal includes forming the first bead seal to define an endless loop having at least one corner section and at least one linear section, wherein the first region is the at least one linear section of the first bead seal, and the second region is the at least one corner section of the first bead seal. 3. The method set forth in claim 1 , further comprising positioning the outer weld line nearer to the first outer lateral edge to decrease the outer gap distance and increase the stiffness of the first bead seal in the first region to achieve the first stiffness of the first bead seal. 4. The method set forth in claim 3 , further comprising positioning the outer weld line farther from the first outer lateral edge to increase the outer gap distance and decrease the stiffness of the first bead seal in the second region to achieve the second stiffness of the first bead seal. 5. The method set forth in claim 1 , further comprising forming the second plate to include a second bead seal extending along the centerline and having a second inner lateral edge and a second outer lateral edge. 6. The method set forth in claim 5 , wherein positioning the first plate against the second plate is further defined as positioning the first plate against the second plate such that the first bead seal and the second bead seal are disposed opposite each other and extend away from each other to form a channel therebetween, with the first inner lateral edge and the second inner lateral edge aligned with each other and the first outer lateral edge and the second outer lateral edge aligned with each other. 7. The method set forth in claim 1 , further comprising welding the first plate to the second plate along an inner weld line, wherein the inner weld line is laterally spaced from the first inner lateral edge an inner gap distance, with the inner gap distance varying with movement along the centerline to control the stiffness of the first bead seal. 8. The method set forth in claim 7 , wherein the inner gap distance and the outer gap distance are equal to each other at any location along the centerline. 9. A method of manufacturing a bipolar plate for a fuel cell, the method comprising: forming a first plate to include a first bead seal extending along a centerline and having a first inner lateral edge and a first outer lateral edge; forming a second plate to include a second bead seal extending along the centerline and having a second inner lateral edge and a second outer lateral edge; positioning the first plate against the second plate, such that the first bead seal and the second bead seal are disposed opposite each other and extend away from each other to form a channel therebetween, with the first inner lateral edge and the second inner lateral edge aligned with each other and the first outer lateral edge and the second outer lateral edge aligned with each other; positioning an outer weld line relative to the first outer lateral edge and the second outer lateral edge to define a first value for an outer gap distance in a linear section of the first bead seal to provide a first stiffness; positioning the outer weld line relative to the first outer lateral edge and the second outer lateral edge to define a second value for the outer gap distance in a corner section of the first bead seal to provide a second stiffness; welding the first plate to the second plate along the outer weld line; wherein the outer weld line is laterally spaced from the first outer lateral edge and the second outer lateral edge the outer gap distance; wherein the outer gap distance varies with a position along the centerline to establish a variable stiffness along the centerline of the first bead seal and the second bead seal respectively; wherein the first value of the outer gap distance is less than the second value of the outer gap distance; and wherein the first stiffness is equal to the second stiffness. 10. The method set forth in claim 9 , further comprising welding the first plate to the second plate along an inner weld line, wherein the inner weld line is laterally spaced from the first inner lateral edge and the second inner lateral edge an inner gap distance, with the inner gap distance varying with movement along the centerline to control the stiffness of the first bead seal and the second bead seal.