Pulse Joining Cartridges

What is claimed is: 1 . A pulsed joining tool comprising: a tool body defining a cavity for receiving two nested tubular members; a cartridge disposed in the cavity including a supply conductor and a return conductor extending circumferentially from an entry point to a reversal point with electrical insulation isolating the supply and return conductors; and a source of stored electrical energy dischargeable through the supply and return conductors to join the tubular members. 2 . The pulsed joining tool of claim 1 wherein the tool includes at least two parts that are separable for loading and unloading the tubular members. 3 . The tool of claim 2 further comprising a mandrel inserted inside the tubular members to support the tubular members when the source of stored electrical energy is discharged through the supply and return conductors. 4 . The tool of claim 3 wherein the mandrel supports one of the tubular members in an expanded position and is radially retracted in a retracted position to remove the mandrel from the tubular members. 5 . The tool of claim 1 wherein the electrical insulation is a plastic casing that encases the supply and return conductors. 6 . The tool of claim 1 wherein the tool includes a first part and a second part that are separable by an actuator that moves the first part relative to the second part between an open position and a closed position. 7 . A tool for joining tubular parts comprising: a body defining a cavity receiving overlapping portions of the tubular parts; a cartridge supporting a conductor extending around the overlapping portions, the conductor includes a supply segment extending around the overlapping portions in a first rotational direction to a reversal point and a return segment extending around the overlapping portion in a second rotational direction away from the reversal point, the supply segment is insulated from the return segment; and a source of stored electrical energy discharged through the supply segment and the return segment in opposite rotational directions to create an electromagnetic pulse joining the tubular parts together. 8 . The tool of claim 7 wherein the tool includes a first part and a second part that are separable by an actuator that moves the first and second parts between an open position and a closed position, and further comprises a mandrel inserted inside the tubular parts to support the tubular parts when the source of stored electrical energy is discharged through the supply and return segments. 9 . The tool of claim 7 wherein the body defines an entry point through which the conductor enters into the cavity, and wherein the entry point is sufficiently spaced from the reversal point to prevent arcing between the entry point and the reversal point. 10 . A method of joining an inner tubular member and an outer tubular member together comprising: inserting a cartridge into a receptacle, the cartridge including a conductor having a first run and a second run that are separated by an insulator, wherein the conductor defines a circumferential gap between an entry port into the cartridge and a reversal point; loading the tubular members into a tool that defines a receptacle for the cartridge; and discharging stored electrical energy through the first run in a first circumferential direction to the reversal point and through the second run in a second circumferential direction creating an electro-magnetic pulse that joins the tubular members together. 11 . The method of claim 10 wherein the stored electrical energy is discharged through the first run and the second run in opposite circumferential directions to create the electro-magnetic pulse joining the tubular members together. 12 . The method of claim 10 wherein the conductor is a wire. 13 . The method of claim 10 wherein the conductor is a foil. 14 . The method of claim 10 wherein the cartridge is formed of a polymeric material. 15 . The method of claim 10 wherein the circumferential gap is sufficient to prevent arcing between the entry port and the reversal point. 16 . The method of claim 10 further comprising: nesting the tubular members together with overlapping portions of the tubular members being disposed inside the tool.