Brazed electrode for plasma cutting torch

What is claimed is: 1. A composite plasma cutting electrode, comprising: a body portion made from a first material having a wall portion defining a cavity and a distal end having an distal end face and a first shoulder engagement portion which extends upstream from said distal end face, where said first shoulder engagement portion comprises first and second surfaces; and a tip portion made from a second material, said tip portion having a further distal end face and a tip cavity in said further distal end face with an emissive insert disposed in said tip cavity, an upstream end face, and a second shoulder engagement portion extending downstream from said upstream end face, and having a first and second surface, wherein said upstream end face of said tip portion makes direct physical contact with said first surface of said first shoulder engagement portion; wherein said second surface of said first shoulder engagement portion is adjacent to said second surface of said second shoulder engagement portion such that a first gap exists between said respective second surfaces, wherein said first surface of said second shoulder engagement portion is adjacent to said distal end face of said body portion such that a second gap exists between said first surface of said second shoulder engagement portion and said distal end face of said body portion, and wherein each of said first and second gaps are filled with a brazing material which secures said body portion to said tip portion. 2. The composite plasma cutting electrode of claim 1 , wherein said second gap is in the range of 0.001 to 0.006 in. 3. The composite plasma cutting electrode of claim 2 , wherein said first gap is in the range of 0.002 to 0.0035 in. 4. The composite plasma cutting electrode of claim 1 , wherein said wall portion has a first thickness which is upstream of said first shoulder engagement portion and a second thickness which is downstream of said first surface of said first shoulder engagement portion, wherein said first thickness is greater than said second thickness. 5. The composite plasma cutting electrode of claim 1 , wherein a wall thickness of said first shoulder engagement portion is different from a wall thickness of said second shoulder engagement portion. 6. The composite plasma cutting electrode of claim 1 , wherein said first material is copper, said second material is silver and said brazing material contains silver. 7. The composite plasma cutting electrode of claim 1 , wherein said composite plasma cutting electrode has an overall length L, and said tip portion has a length SL, where SL is in the range of 10 to 20% of L. 8. The composite plasma cutting electrode of claim 1 , wherein said composite plasma cutting electrode has an overall length L, and said tip portion has a length SL, where SL is in the range of 12 to 17% of L. 9. The composite plasma cutting electrode of claim 1 , wherein said first gap and said second gap have a same gap distance. 10. The composite plasma cutting electrode of claim 1 , wherein said first gap and said second gap have differing gap distances. 11. A composite plasma cutting electrode, comprising: a copper body having a wall portion defining a cavity and a distal end having an distal end face and a first shoulder engagement portion which extends upstream from said distal end face, where said first shoulder engagement portion comprises first and second surfaces; and a silver tip, said silver tip having a further distal end face and a tip cavity in said further distal end face with an emissive insert disposed in said tip cavity, an upstream end face, and a second shoulder engagement portion extending downstream from said upstream end face, and having a first and second surface, wherein said upstream end face of said silver tip makes direct physical contact with said first surface of said first shoulder engagement portion; wherein said second surface of said first shoulder engagement portion is adjacent to said second surface of said second shoulder engagement portion such that a first gap exists between said respective second surfaces, wherein said first surface of said second shoulder engagement portion is adjacent to said distal end face of said copper body such that a second gap exists between said first surface of said second shoulder engagement portion and said distal end face of said copper body, and wherein each of said first and second gaps are filled with a brazing material which secures said copper body to said silver tip, wherein said second gap is larger than said first gap. 12. The composite plasma cutting electrode of claim 11 , wherein said second gap is in a range of 0.001 to 0.006 in. 13. The composite plasma cutting electrode of claim 12 , wherein said first gap is in a range of 0.002 to 0.0035 in. 14. The composite plasma cutting electrode of claim 11 , wherein said wall portion has a first thickness which is upstream of said first shoulder engagement portion and a second thickness which is downstream of said first surface of said first shoulder engagement portion, wherein said first thickness is greater than said second thickness. 15. The composite plasma cutting electrode of claim 11 , wherein a wall thickness of said first shoulder engagement portion is different than a wall thickness of said second shoulder engagement portion. 16. The composite plasma cutting electrode of claim 11 , wherein brazing material contains silver. 17. The composite plasma cutting electrode of claim 11 , wherein said composite plasma cutting electrode has an overall length L, and said silver tip has a length SL, wherein SL is in the range of 10 to 20% of L. 18. The composite plasma cutting electrode of claim 11 , wherein said composite plasma cutting electrode has an overall length L, and said silver tip has a length SL, wherein SL is in the range of 12 to 17% of L.