Shaped electrical conductor

The invention claimed is: 1. A shaped electrical conductor comprising: a first sheet of metal having a first thickness; a first thermoplastic adhesive pattern on a first surface of the first sheet; a second thermoplastic adhesive pattern on a second surface of the first sheet, the second pattern being fully justified with the applied first pattern; wherein the first sheet is etched to remove metal not covered by the thermoplastic adhesive patterns so that no metal bridges remain between disconnected coated portions of the first sheet; a second sheet of metal having a second thickness; a third thermoplastic adhesive pattern on a first surface of the second sheet; a fourth thermoplastic adhesive pattern on a second surface of the second sheet, the fourth pattern being fully justified with the applied third pattern; wherein the second sheet is etched to remove metal not covered by the thermoplastic adhesive patterns so that no metal bridges remain between disconnected coated portions of the second sheet; a first contact region in the second adhesive pattern bonded to a second contact region in the third adhesive pattern; and wherein the first and second sheets are mated so that the first contact region is in electrical contact with the second contact region. 2. The shaped electrical conductor of claim 1 wherein the first and second patterns are different from the third and fourth patterns. 3. The shaped electrical conductor of claim 1 wherein the first and second patterns are circular and the third and fourth patterns are elliptical spirals. 4. The shaped electrical conductor of claim 3 wherein a long axis of the elliptical spirals is twice a length of an axis of the first and second circular patterns. 5. The shaped electrical conductor of claim 1 , wherein the first and second metal sheets are at least 0.1 mm thick. 6. The shaped electrical conductor of claim 1 , wherein one of the thermoplastic adhesive patterns includes a plurality of traces having widths less than 2 mm. 7. The shaped electrical conductor of claim 1 , wherein the two sheets are bonded by heating and pressing them together. 8. The shaped electrical conductor of claim 1 , wherein thermoplastic adhesive patterns are applied with an electrophotographic print engine. 9. The shaped electrical conductor of claim 1 , wherein the contact regions are soldered or welded together. 10. The shaped electrical conductor of claim 1 wherein the first thickness and the second thickness are different. 11. The shaped electrical conductor of claim 1 further including: a third sheet of metal having a third thickness; a fifth thermoplastic adhesive pattern on a first surface of the third sheet; a sixth thermoplastic adhesive pattern on a second surface of the third sheet, the sixth pattern being fully justified with the applied fifth pattern; wherein the third sheet is etched to remove metal not covered by the thermoplastic adhesive patterns so that no metal bridges remain between disconnected coated portions of the third sheet; a third contact region in the fourth adhesive pattern bonded to a fourth contact region in the fifth adhesive pattern; and wherein the second and third sheets are mated so that the third contact region is in electrical contact with the fourth contact region. 12. The shaped electrical conductor of claim 11 wherein the fifth thermoplastic pattern is a rotation of the first thermoplastic pattern. 13. The shaped electrical conductor of claim 1 wherein the shaped electrical conductor forms a winding pattern for an electric motor. 14. The shaped electrical conductor of claim 1 , wherein the first and second patterns, or the third and fourth patterns, define balancing features in the metal. 15. The shaped electrical conductor of claim 14 , wherein at least one of the balancing features is frangible, so that the frangible balancing feature can be separated from the corresponding metal sheet to provide balance adjustments to improve dynamic or static balance. 16. The shaped electrical conductor of claim 15 , further including punching or stamping the metal sheet corresponding to the frangible balancing feature to define a break line along which the frangible balancing feature can be separated from the corresponding metal sheet. 17. The shaped electrical conductor according to claim 1 , wherein the first and second patterns, or the third and fourth patterns, define an unbalanced feature in the metal not removed from the corresponding metal sheet by the corresponding etching step.