Devices and methods configured to manipulate friction between a working piece and a deep drawing tool in a deep drawing process

What is claimed is: 1. A method of making a metal product, comprising: applying a first lubricant on a punch side of a sheet metal blank; applying a second lubricant on a die side of the sheet metal blank; drawing the sheet metal blank using a punch and a die to form the sheet metal blank into a metal product while controlling one or both of a first coefficient of friction between the punch side of the sheet metal blank or a second coefficient of friction between the die side of the sheet metal blank and the die such that the first coefficient of friction is greater than the second coefficient of friction; and ejecting the metal product from the die while controlling a third coefficient of friction between the metal product and the punch to be less than the first coefficient of friction; wherein controlling the first coefficient of friction comprises applying a first electric current through the first lubricant or applying the first electric current through the second lubricant, and wherein controlling the third coefficient of friction comprises applying a second electric current through the first lubricant. 2. The method of claim 1 , wherein the first electric current has a magnitude of from 0.01 mA to 12 A or wherein the second electric current has a magnitude of from 0.01 mA to 12 A, wherein the first electric current or the second electric current, but not both, has a magnitude of 0 A, wherein the first electric current is applied using a voltage of from 0.05 V to 6 V or wherein the second electric current is applied using a voltage of from 0.05 V to 6 V. 3. The method of claim 1 , wherein the first electric current is applied between the punch and the die or between the punch and the sheet metal blank or wherein the second electric current is applied between the punch and the die or between the punch and the metal product. 4. The method of claim 1 , wherein the first electric current flows from the punch to the die through at least the first lubricant, from the die to the punch through at least the first lubricant, from the punch to the sheet metal blank through at least the first lubricant, from the sheet metal blank to the punch through at least the first lubricant, from the punch to the die through at least the second lubricant, from the die to the punch through at least the second lubricant, from the die to the sheet metal blank through at least the second lubricant, or from the sheet metal blank to the die through at least the second lubricant. 5. The method of claim 1 , wherein the second electric current flows from the punch to the die through at least the first lubricant, from the die to the punch through at least the first lubricant, from the punch to the metal product through at least the first lubricant, or from the metal product to the punch through at least the first lubricant. 6. The method of claim 1 , wherein the first lubricant and the second lubricant are different lubricants, wherein the first lubricant and the second lubricant are a same lubricant, wherein the first lubricant comprises an ionic liquid, or wherein the second lubricant comprises one or more of an ionic liquid, an aqueous lubricant, an oil-based lubricant, a wax-based lubricant, a petroleum-based lubricant, or a conductive lubricant. 7. The method of claim 1 , wherein the sheet metal blank comprises an aluminum alloy. 8. The method of claim 1 , wherein the metal product comprises a metal cup, a redrawn metal cup, or a metal bottle preform.