Container, and selectively formed shell, and tooling and associated method for providing same

What is claimed is: 1. Tooling for forming a shell, the tooling comprising: an upper tool assembly including an upper pressure sleeve; the upper pressure sleeve including a lower end defining a pressure concentrating forming surface; a lower tool assembly cooperating with the upper tool assembly to form material disposed therebetween to include a center panel, a circumferential chuck wall, an annular countersink between the center panel and the circumferential chuck wall, and a curl extending radially outwardly from the chuck wall; wherein the upper tool assembly and the lower tool assembly move between a separated, first position, wherein the upper tool assembly is spaced from the lower tool assembly, and a forming position, wherein the upper tool assembly is immediately adjacent the lower tool assembly to selectively stretch the material of at least one predetermined portion of the shell relative to at least one other portion of the shell, thereby providing a corresponding thinned portion; wherein the pressure concentrating forming surface includes a reduced clamp area; and wherein the pressure concentrating forming surface includes a plurality of landings. 2. The tooling of claim 1 wherein the pressure concentrating forming surface plurality of landings includes between two and five substantially concentric landings. 3. Tooling for forming a shell, the tooling comprising: an upper tool assembly including an upper pressure sleeve; the upper pressure sleeve including a lower end defining a pressure concentrating forming surface; a lower tool assembly cooperating with the upper tool assembly to form material disposed therebetween to include a center panel, a circumferential chuck wall, an annular countersink between the center panel and the circumferential chuck wall, and a curl extending radially outwardly from the chuck wall; wherein the upper tool assembly and the lower tool assembly move between a separated, first position, wherein the upper tool assembly is spaced from the lower tool assembly, and a forming position, wherein the upper tool assembly is immediately adjacent the lower tool assembly to selectively stretch the material of at least one predetermined portion of the shell relative to at least one other portion of the shell, thereby providing a corresponding thinned portion; wherein the pressure concentrating forming surface includes a reduced clamp area; the upper tool assembly includes an upper die shoe, a riser body, and a hybrid bias generating assembly; the riser body coupled to the die shoe, the riser body defining a pressure chamber; the upper pressure sleeve movably disposed in the riser body pressure chamber; the upper pressure sleeve movable between an extended, first position, wherein the upper pressure sleeve lower end is more spaced from the upper die shoe, and a retracted, second position, wherein the upper pressure sleeve lower end is less spaced from the upper die shoe; the hybrid bias generating assembly operatively coupled to the upper pressure sleeve; wherein the hybrid bias generating assembly controls the movement of the upper pressure sleeve as the upper tool assembly and the lower tool assembly move between the first and second positions; wherein the hybrid bias generating assembly includes a pressure generating assembly, a mechanical bias assembly, and a number of hybrid components; the pressure generating assembly is structured to pressurize the pressure chamber; the mechanical bias assembly includes a number of springs; the hybrid bias generating assembly generates a total bias force as the upper tool assembly and the lower tool assembly move between the first and second positions; wherein the pressure generating assembly generates between about 20%-30% of the total bias force; and wherein the mechanical bias assembly generates between about 70%-80% of the total bias force. 4. The tooling of claim 3 wherein: the pressure generating assembly generates about 25% of the total bias force; and the mechanical bias assembly generates about 75% of the total bias force. 5. Tooling for forming a shell, the tooling comprising: an upper tool assembly including an upper pressure sleeve; the upper pressure sleeve including a lower end defining a pressure concentrating forming surface; a lower tool assembly cooperating with the upper tool assembly to form material disposed therebetween to include a center panel, a circumferential chuck wall, an annular countersink between the center panel and the circumferential chuck wall, and a curl extending radially outwardly from the chuck wall; wherein the upper tool assembly and the lower tool assembly move between a separated, first position, wherein the upper tool assembly is spaced from the lower tool assembly, and a forming position, wherein the upper tool assembly is immediately adjacent the lower tool assembly to selectively stretch the material of at least one predetermined portion of the shell relative to at least one other portion of the shell, thereby providing a corresponding thinned portion; wherein the pressure concentrating forming surface includes a reduced clamp area; the upper tool assembly includes an upper die shoe, a riser body, and a hybrid bias generating assembly; the riser body coupled to the die shoe, the riser body defining a pressure chamber; the upper pressure sleeve movably disposed in the riser body pressure chamber; the upper pressure sleeve movable between an extended, first position, wherein the upper pressure sleeve lower end is more spaced from the upper die shoe, and a retracted, second position, wherein the upper pressure sleeve lower end is less spaced from the upper die shoe; the hybrid bias generating assembly operatively coupled to the upper pressure sleeve; wherein the hybrid bias generating assembly controls the movement of the upper pressure sleeve as the upper tool assembly and the lower tool assembly move between the first and second positions; wherein the hybrid bias generating assembly includes a pressure generating assembly, a mechanical bias assembly, and a number of hybrid components; the pressure generating assembly is structured to pressurize the pressure chamber; the mechanical bias assembly includes a number of springs; the hybrid bias generating assembly generates a total bias force as the upper tool assembly and the lower tool assembly move between the first and second positions; wherein the total bias force is communicated through the upper pressure sleeve to the pressure concentrating forming surface; wherein the pressure concentrating forming surface is structured to apply a clamping force to a work piece; and wherein the ratio of the total bias force to the clamping force is between about 1:20 and 1:40. 6. The tooling of claim 5 wherein the ratio of the total bias force to the clamping force is about 1:30. 7. Tooling for forming a shell, the tooling comprising: an upper tool assembly including an upper pressure sleeve; the upper pressure sleeve including a lower end defining a pressure concentrating forming surface; a lower tool assembly cooperating with the upper tool assembly to form material disposed therebetween to include a center panel, a circumferential chuck wall, an annular countersink between the center panel and the circumferential chuck wall, and a curl extending radially outwardly from the chuck wall; wherein the upper tool assembly and the lower tool assembly move between a separated, first position, wherein the upper tool assembly is spaced from the lower tool assembly, and a forming position, wherein the upper tool assembly is immediately adjacent the lower tool assembly to selectively stretch the material of at least one predetermined portion of the shell relative to at least