Stamp-forming system and method

What is claimed is: 1. A stamp-forming system for forming a blank into a formed article, comprising: a lower die formed of elastomeric material and having lower die lateral sides that define a lower die outer perimeter; a die wall having a die wall top side and a die wall inner perimeter that has a constant cross-sectional shape that is open on the die wall top side and which is no smaller than the lower die outer perimeter, and configured to encircle the lower die lateral sides, and move vertically relative to the lower die; an upper die configured to move between an open position in which the upper die is separated from the die wall and the lower die, and a clamped position in which the upper die is in direct contact with the die wall and applying clamping pressure to a blank against the lower die, to thereby form the blank into a formed article; and wherein the die wall is sized and configured to prevent lateral expansion of the lower die when the lower die is vertically compressed by the clamping pressure applied by the upper die. 2. The stamp-forming system of claim 1 , wherein: the elastomeric material of the lower die is one of the following: natural rubber, synthetic rubber, RTV rubber, silicone, or combinations thereof. 3. The stamp-forming system of claim 1 , wherein the die wall has a die wall top side, and the lower die has a lower die top side, the stamp-forming system further comprising: one or more resiliently compressible devices configured to: support the die wall in a manner such that the die wall top side is located above the lower die top side when the upper die is in the open position; and urge the die wall against the upper die when the upper die is moving into the clamped position. 4. The stamp-forming system of claim 1 , further comprising: one or more alignment devices configured to maintain the die wall in alignment with the lower die during movement of the die wall. 5. The stamp-forming system of claim 1 , wherein: the lower die has a lower die outer perimeter; the die wall has a die wall inner perimeter; and the lower die and the die wall are sized and configured such that, prior to the upper die applying the clamping pressure to the blank against the lower die, there is a maximum gap of 0.10 inch at any location between the lower die outer perimeter and the die wall inner perimeter. 6. The stamp-forming system of claim 3 , wherein: the one or more resiliently compressible devices comprise a plurality of coil springs. 7. The stamp-forming system of claim 3 , further comprising: a base member configured to support the lower die, and having a ledge encircling base member lateral sides of the base member; and wherein each of the one or more the resiliently compressible devices is mountable to one of the die wall or the ledge. 8. The stamp-forming system of claim 7 , wherein: the die wall has a die wall bottom side; the lower die has a lower die bottom side, and a lower die outer perimeter defined by the lower die lateral sides; the base member has a platform protruding above the ledge; and the platform is configured to support the lower die bottom side, and has a platform outer perimeter that is no larger than the lower die outer perimeter, thereby allowing the die wall bottom side to move below the lower die bottom side during vertical movement of the die wall. 9. The stamp-forming system of claim 4 , further comprising: a base member configured to support the lower die; wherein the one or more alignment devices comprise: a plurality of alignment pins, each protruding from one of the base member and the die wall; and a corresponding plurality of pin bores configured to receive the plurality of alignment pins, each of the pin bores is formed in one of the base member and the die wall. 10. A stamp-forming system for forming a blank, comprising: an upper die formed of rigid material and having an upper die bottom side having an upper die contour; a lower die formed of elastomeric material and having lower die lateral sides that define a lower die outer perimeter and a lower die top side having a lower die contour that matches the upper die contour; a die wall having a die wall top side and a die wall inner perimeter that has a constant cross-sectional shape that is open on the die wall top side and which is no smaller than the lower die outer perimeter, and configured to encircle the lower die lateral sides, and move vertically relative to the lower die; wherein: the upper die is configured to move between an open position in which the upper die is separated from the die wall and the lower die, and a clamped position in which the upper die is in direct contact with the die wall and applying clamping pressure to a blank against the lower die, to thereby form the blank into a formed article; and the die wall is sized and configured to prevent lateral expansion of the elastomeric material of the lower die when the lower die is vertically compressed by the clamping pressure of the upper die. 11. The stamp-forming system of claim 10 , wherein: the upper die contour extends between opposing ends of the upper die bottom side; and the lower die contour extends between opposing ends of the lower die top side. 12. The stamp-forming system of claim 10 , wherein: the die wall has opposing ends that are shaped complementary to the upper die contour and the lower die contour. 13. A method of stamp forming a blank into a formed article, comprising: positioning a blank between a lower die and an upper die in an open position, the lower die is formed of elastomeric material, and has lower die lateral sides that define a lower die outer perimeter and that are encircled by a die wall that is vertically movable relative to the lower die and which has a die wall top side and a die wall inner perimeter having a constant cross-sectional shape that is open on the die wall top side and which is no smaller than the lower die outer perimeter; moving the upper die from the open position in which the upper die is separated from the die wall and the lower die, to a clamped position in which the upper die is in direct contact with the die wall, and is applying clamping pressure to the blank against the lower die, to thereby form the blank into a formed article; and preventing, using the die wall, lateral expansion of the lower die when the lower die is vertically compressed by the clamping pressure applied by the upper die. 14. The method of claim 13 , further comprising: supporting, using one or more resiliently compressible devices, the die wall in a manner such that a die wall top side is located above a lower die top side when the upper die is in the open position; and urging, using the one or more resiliently compressible devices, the die wall against the upper die when the upper die is moving into the clamped position. 15. The method of claim 13 , further comprising: maintaining, using one or more alignment devices, the die wall in alignment with the lower die during movement of the die wall. 16. The method of claim 13 , wherein positioning the blank between the lower die and the upper die comprises: positioning a heated thermoplastic laminate between the lower die and the upper die. 17. The method of claim 14 , wherein the die wall has a die wall bottom side, and the lower die is supported on a base member having base member lateral sides, and a ledge encircling the base member lateral sides, the step of supporting the die wall comprising: supporting the die wall using one or more resiliently compressible device