Consumables for a plasma arc torch for bevel cutting

What is claimed is: 1. A consumable set usable in a plasma arc torch to direct a plasma arc to a processing surface of a workpiece, the consumable set comprising: a nozzle including: 1) a nozzle body defining a longitudinal axis extending therethrough, and 2) a nozzle exit orifice disposed in the nozzle body for constricting the plasma arc, wherein the nozzle exit orifice defines an exit orifice axis oriented at a non-zero bevel angle relative to the longitudinal axis; a substantially planar alignment surface defined by an external surface of the nozzle, the alignment surface being generally parallel to the longitudinal axis, wherein the substantially planar alignment surface is dimensioned to orient the plasma arc torch generally perpendicular to the processing surface of the workpiece such that the nozzle exit orifice causes the plasma arc to impinge on the processing surface of the workpiece at the non-zero bevel angle; and a second alignment surface defined by a second external surface of the nozzle and disposed substantially orthogonal to the substantially planar alignment surface, wherein the second alignment surface, in cooperation with the alignment surface, aligns the plasma arc to impinge on the processing surface at the non-zero bevel angle while the plasma arc torch is substantially perpendicular to the processing surface. 2. The consumable set of claim 1 , further comprising a curved external surface of the nozzle for interconnecting the alignment surface and the second alignment surface. 3. The consumable set of claim 1 , wherein the second alignment surface is configured to contact the processing surface of the workpiece. 4. The consumable of claim 1 , wherein the second alignment surface is oriented to lay substantially parallel over the processing surface of the workpiece perpendicular to the longitudinal axis. 5. The consumable set of claim 1 , wherein the alignment surface is configured to slidingly contact a guiding surface of a template. 6. The consumable of claim 5 , wherein the template is attachable to the workpiece or the plasma arc torch. 7. The consumable set of claim 5 , wherein the alignment surface is configured to lay at least substantially flush against the guiding surface. 8. The consumable set of claim 5 , further comprising a set of bearings coupled to the alignment surface to slidingly contact the guiding surface. 9. The consumable of claim 1 , wherein the bevel angle is between about 20 and 60 degrees relative to the longitudinal axis. 10. The consumable of claim 9 , wherein the bevel angle is about 22.5, 37.5 or 45 degrees relative to the longitudinal axis. 11. The consumable set of claim 1 , wherein the nozzle exit orifice defines an interior opening and an exterior opening along the exit orifice axis. 12. The consumable set of claim 11 , wherein the center of the exterior opening of the nozzle exit orifice is less than about 0.25 inches from the alignment surface. 13. The consumable set of claim 11 , wherein the exterior opening of the nozzle exit orifice is located on the second alignment surface. 14. The consumable set of claim 1 , further comprising a shield including at least one of the alignment surface or the second alignment surface. 15. The consumable set of claim 1 , wherein the alignment surface is coated with an electrically insulating material. 16. The consumable set of claim 1 , wherein the plasma arc torch is a handheld plasma arc torch. 17. The consumable set of claim 1 , wherein the alignment surface being generally parallel to the longitudinal axis comprises the alignment surface within about 10 degrees from being parallel to the longitudinal axis. 18. A method of manufacturing a consumable set usable in a plasma arc torch for directing a plasma arc to a processing surface of a workpiece, the method comprising: fabricating a nozzle body having a longitudinal axis extending therethrough; forming a nozzle exit orifice in the nozzle body oriented at a non-zero bevel angle relative to the longitudinal axis of the nozzle body, the nozzle exit orifice dimensioned to constrict the plasma arc passing therethrough; locating a substantially planar alignment surface on the nozzle body generally parallel to the longitudinal axis, the substantially planar alignment surface being dimensioned to orient the plasma arc torch generally perpendicular to the processing surface of the workpiece such that the plasma arc exiting the nozzle exit orifice impinges on the processing surface of the workpiece at the bevel angle; and locating a second alignment surface on the nozzle body substantially orthogonal to the substantially planar alignment surface, the second alignment surface, in cooperation with the alignment surface, aligning the plasma arc to impinge on the processing surface at the non-zero bevel angle while the plasma arc torch is substantially perpendicular to the processing surface. 19. The method of claim 18 , further comprising fabricating a shield including: 1) the alignment surface and 2) a shield exit orifice coplanar with the nozzle exit orifice for delivering the plasma arc to impinge on the processing surface. 20. The method of claim 18 , further comprising fabricating the alignment surface to be substantially planar to slidingly contact a guiding surface of a template. 21. The method of claim 18 , further comprising locating an exterior opening of the nozzle exit orifice on the second alignment surface. 22. The method of claim 18 , wherein the bevel angle is between about 20 and 60 degrees relative to the longitudinal axis. 23. A nozzle for a manual plasma arc torch, the nozzle comprising: a nozzle body including: 1) a longitudinal axis extending through the nozzle body, 2) an internal structure generally rotationally symmetrical about the longitudinal axis, and 3) an external structure disposed about the longitudinal axis; an exit orifice extending between the internal structure and the external structure of the nozzle body for constricting a plasma arc, wherein the exit orifice is rotationally asymmetric about the longitudinal axis and defines an exit orifice axis at a non-zero bevel angle relative to the longitudinal axis; a substantially planar alignment surface defined by the external structure of the nozzle body for orienting the exit orifice axis relative to a processing surface of a workpiece; and a second alignment surface defined by the external structure of the nozzle body and disposed substantially orthogonal to the substantially planar alignment surface. 24. The nozzle of claim 23 , wherein the alignment surface is generally parallel to the longitudinal axis. 25. The nozzle of claim 23 , wherein the second alignment surface is adapted to contact the processing surface. 26. The nozzle of claim 23 , wherein the alignment surface is adapted to contact a guiding surface of a template configured to guide the plasma arc to impinge on the processing surface of the workpiece. 27. The nozzle of claim 26 , wherein the processing surface and the guiding surface are oriented substantially perpendicular relative to each other to cooperatively guide the plasma arc to impinge on the processing surface at the bevel angle.