Cartridge for a liquid-cooled plasma arc torch

What is claimed is: 1 . An electrode for a consumable cartridge of a plasma arc torch, the electrode comprising: a substantially hollow body defining a proximal end, a distal end and a longitudinal axis extending therebetween; an emitter disposed at the distal end of the hollow body; and a plurality of flanges, including a proximal flange and a distal flange, disposed circumferentially about an external surface of the hollow body and extending radially outward, each flange defining one or more holes configured to conduct a gas flow therethrough along the external surface of the hollow body, wherein the one or more holes on the proximal flange define a first combined cross-sectional flow area that is different from a second combined cross-sectional flow area defined by the one or more holes on the distal flange. 2 . The electrode of claim 1 , wherein the distal flange is axially spaced and downstream from the proximal flange along the external surface of the hollow body. 3 . The electrode of claim 2 , wherein the proximal and distal flanges cooperatively define a chamber therebetween, the chamber radially bounded by the external surface of the hollow body of the electrode and an insulator surrounding at least a portion of the exterior surface of the hollow body. 4 . The electrode of claim 3 , wherein the one or more holes of the proximal and distal flanges are in fluid communication with the chamber. 5 . The electrode of claim 3 , wherein the first combined cross-sectional flow area is larger than the second combined cross-sectional flow area such that the chamber is pressurized by the gas flow entering the chamber from the one or more holes in the proximal flange and leaving the chamber from the one or more holes in the distal flange. 6 . The electrode of claim 1 , wherein a cross-sectional flow area of each of the one or more holes on the proximal flange is between about 0.0015 inches 2 and about 0.0075 inches 2 . 7 . The electrode of claim 1 , wherein a cross-sectional flow area of each of the one or more holes on the distal flange is about 0.008 inches 2 . 8 . The electrode of claim 1 , wherein the one or more holes on the distal flange are configured to provide swirling to a gas flow therethrough. 9 . The electrode of claim 1 , wherein the plurality of flanges include alignment surfaces configured to provide axial and radial alignment of the electrode relative to a nozzle when installed in the plasma arc torch. 10 . The electrode of claim 1 , wherein the plurality of flanges increases a diameter of the electrode in relation to a diameter of the hollow body by about 35 percent or higher. 11 . The electrode of claim 1 , wherein each of the plurality of flanges has a radial height of about 0.125 inches. 12 . The electrode of claim 1 , wherein the proximal flange has an axial thickness of about 0.08 inches and the distal flange has an axial thickness of about 0.11 inches. 13 . The electrode of claim 1 , wherein the hollow body of the electrode is configured to conduct a liquid coolant therethrough. 14 . The electrode of claim 1 , wherein the plurality of flanges are located at a distal half of the electrode body close to the distal end of the electrode. 15 . The electrode of claim 14 , wherein the plurality of flanges is located on a distal ⅓ portion of the electrode close to the distal end of the electrode. 16 . The electrode of claim 1 , further comprising a resilient element circumferentially coupled to the proximal end of the hollow body of the electrode for engaging the electrode to a torch body of the plasma arc torch without a threaded connection, the resilient element configured to provide an electrical connection between the electrode and the torch body. 17 . The electrode of claim 1 , further comprising a radially-extending contact surface shaped to provide primary conduction for the operating current. 18 . A consumable cartridge of a liquid-cooled plasma arc torch, the consumable cartridge comprising: an electrode having a substantially hollow body and a plurality of flanges disposed circumferentially about an external surface of the hollow body; an insulator circumferentially disposed about a portion of the external surface of the hollow body of the electrode, the plurality of flanges of the electrode in cooperation with the insulator to define a gas chamber between the electrode and the insulator; a nozzle circumferentially disposed about the electrode and physically connected to the electrode via the insulator, wherein the nozzle comprises a nozzle jacket and a nozzle body, the nozzle jacket circumferentially disposed about an external surface of the nozzle body and defining a chamber therebetween; and a cartridge frame comprising an electrically insulating material with at least one cooling channel extending therethrough, wherein a proximal portion of the nozzle is disposed within and coupled to the cartridge frame. 19 . The consumable cartridge of claim 18 , further comprising a shield circumferentially disposed about the nozzle, wherein a proximal portion of the shield is disposed within and coupled to the cartridge frame. 20 . The consumable cartridge of claim 19 , further comprising a retaining cap circumferentially disposed over an exterior surface of a proximal portion of the cartridge frame. 21 . The consumable cartridge of claim 20 , further comprising a stamped connector circumferentially disposed over an exterior surface of a distal portion of the cartridge frame, the stamped connector configured to physically retain the shield to the retaining cap. 22 . The consumable cartridge of claim 18 , wherein the insulator is comprised of an electrically insulating material with an oxygen index of about 0.9 or more. 23 . The consumable cartridge of claim 18 , wherein the insulator is configured to axially and radially align the electrode and the nozzle relative to each other. 24 . The consumable cartridge of claim 18 , wherein the insulator is at least 0.020 inches in thickness in a radial direction. 25 . The consumable cartridge of claim 18 , wherein the plurality of flanges include a proximal flange and a distal flange, each flange having one or more holes extending therethrough. 26 . The consumable cartridge of claim 25 , wherein the one or more holes on the proximal flange define a first combined cross-sectional flow area that is larger than a second combined cross-sectional flow area defined by the one or more holes on the distal flange. 27 . The consumable cartridge of claim 25 , wherein the gas chamber is axially bounded by the proximal and distal flanges and radially bounded by the external surface of the hollow body of the electrode and the insulator. 28 . A method for conducting one or more fluid flows through a consumable cartridge of a plasma arc torch, the method comprising: providing a consumable cartridge comprising a cartridge frame coupled to a nozzle that is couples to an electrode via an insulator, the electrode comprising at least a proximal flange and a distal flange disposed circumferentially about an external surface of a hollow body of the electrode; providing a plasma gas flow to the external surface of the hollow body of the electrode; conducting the plasma gas flow through at least one hole on the proximal flange of the electrode to a chamber created between t