Adjustable length consumables for a liquid-cooled plasma arc torch

What is claimed is: 1. A torch tip for a liquid-cooled plasma arc cutting torch, the torch tip comprising: an electrode with an elongated electrode body having a distal end and a proximal end extending along a longitudinal axis, the electrode body including a bore at the distal end for receiving a hafnium insert and at least one interior threaded connection at the proximal end for engaging a liquid-cooled electrode holder, wherein the electrode holder comprises a liquid coolant channel that does not extend into the electrode body, the electrode body having (i) a length extending along the longitudinal axis and (ii) a diameter associated with a widest portion of the electrode body along the longitudinal axis between the proximal and distal ends, wherein a ratio of the length to the diameter of the electrode body is greater than 5; a nozzle including a substantially hollow, elongated nozzle body for receiving the electrode, the nozzle body defining (i) a length extending along the longitudinal axis and (ii) a diameter associated with a widest portion of the nozzle body along the longitudinal axis, wherein a ratio of the length to the diameter of the nozzle body is greater than 1.75; and a shield coupled to the nozzle via an insulator, wherein the shield includes: a set of radially-oriented passages dispersed around a first circumference of the shield, the radially-oriented passages fluidly connecting an exterior surface to an interior surface of the shield and configured to impart a swirling motion on a first portion of a combined gas flow therethrough, and a set of axially-oriented passages dispersed around a second circumference of the shield, the axially-oriented passages configured to axially conduct a second portion of the combined gas flow over an external surface of the shield. 2. The torch tip of claim 1 , wherein the diameter of the electrode is less than 0.25 inches. 3. The torch tip of claim 1 , wherein the at least one threaded connection is configured to engage a complementary threaded connection on an external surface of the electrode holder, such that a distal portion of the electrode holder is disposed in a cavity of the electrode body upon engagement. 4. The torch tip of claim 3 , wherein the cavity within the electrode body is shaped and sized to substantially surround a protruding boss portion at the distal portion of the electrode holder, thereby axially and radially aligning the electrode relative to the electrode holder. 5. The torch tip of claim 1 , wherein the ratio of the length to the diameter of the electrode body is greater than 7. 6. The torch tip of claim 1 , wherein the set of axially-oriented passages of the shield comprises at least one groove disposed on the exterior surface of the shield. 7. The torch tip of claim 1 , wherein the combined gas flow comprises a combination of a plasma gas flow and a shield gas flow. 8. The torch tip of claim 7 , wherein the nozzle comprises a set of radially-oriented passages each connecting an interior surface of the nozzle body to an exterior surface of the nozzle body, the set of radially-oriented passages of the nozzle configured to fluidly communicate with the radially-oriented and axially-oriented passages of the shield to supply a portion of the plasma gas flow to the shield. 9. The torch tip of claim 7 , wherein the torch tip, including the electrode, the shield and the nozzle, is substantially cooled by at least one of the plasma gas flow, the shield gas flow or the combined gas flow without being cooled by a liquid coolant in the liquid coolant channel of the electrode holder.