Method and system for additive manufacturing using high energy source and hot-wire

We claim: 1. An additive manufacturing system, comprising: a high energy device which irradiates a surface of a work piece with a high energy discharge to create a molten puddle on a surface of said work piece; a power supply which supplies a heating signal to a consumable where said heating signal comprises a plurality of current pulses and where each of said current pulses creates a molten droplet on a distal end of said consumable which is deposited into said puddle; and a contact tip assembly having a passage through which said consumable passes and which delivers said consumable to said work piece; wherein each of said current pulses reaches a peak current level after said distal end of said consumable contacts said puddle, wherein said heating signal has no current in between said plurality of said current pulses; wherein said distal end of said consumable is not in contact with said puddle between subsequent peak current levels of said current pulses; wherein said power supply controls said heating current such that no arc is created between said wire and said work piece during said current pulses; and wherein said contact tip assembly has at least one moveable component which changes a shape of said consumable prior to delivery of said consumable to said work piece. 2. The system of claim 1 , wherein said consumable comprises a plurality of individual wires. 3. The system of claim 2 , wherein said consumable has a void at a center of said consumable which is surrounded by said wires prior to said consumable being shaped by said contact tip assembly. 4. The system of claim 1 , wherein said contact tip comprises a plurality of movable components which change said shape of said consumable during deposition. 5. The system of claim 1 , wherein said contact tip assembly comprises at least one pair of oppositely positioned moveable components which can extend into and retract from said passage to change said shape of said consumable. 6. The system of claim 1 , wherein at least some of said heating signal is delivered to said consumable through said at least one movable component. 7. The system of claim 1 , wherein said contact tip assembly is rotatable. 8. The system of claim 1 , wherein said contact tip assembly comprises two pairs of moveable components which can change said shape of said consumable. 9. An method of additive manufacturing, comprising: irradiating a surface of a work piece with a high energy discharge to create a molten puddle on a surface of said work piece; supplying a heating signal to a consumable where said heating signal comprises a plurality of current pulses and where each of said current pulses creates a molten droplet on a distal end of said consumable which is deposited into said puddle; passing said consumable through a passage in a contact tip assembly; changing a shape of said consumable within said passage of said contact tip assembly; and delivering said consumable to said work piece; wherein each of said current pulses reaches a peak current level after said distal end of said consumable contacts said puddle, wherein said heating signal has no current in between said plurality of said current pulses; wherein said distal end of said consumable is not in contact with said puddle between subsequent peak current levels of said current pulses; and wherein said power supply controls said heating current such that no arc is created between said wire and said work piece during said current pulses. 10. The method of claim 9 , wherein said consumable comprises a plurality of individual wires. 11. The method of claim 10 , wherein said consumable has a void at a center of said consumable which is surrounded by said wires prior to said consumable being shaped by said contact tip assembly. 12. The method of claim 9 , wherein said contact tip assembly uses a plurality of movable components to change said shape of said consumable during deposition. 13. The method of claim 9 , wherein said contact tip assembly uses at least one pair of oppositely positioned moveable components which can extend into and retract from said passage to change said shape of said consumable. 14. The method of claim 9 , wherein at least some of said heating signal is delivered to said consumable through at least one movable component in said passage. 15. The method of claim 9 , further comprising rotating said contact tip assembly during deposition of said consumable. 16. The method of claim 9 , wherein said contact tip assembly uses two pairs of moveable components to change said shape of said consumable. 17. An additive manufacturing system, comprising: a high energy device which irradiates a surface of a workpiece with a high energy discharge to create at least one molten puddle on a surface of said workpiece; a contact tip assembly which can direct a first wire and a second wire to said work piece at the same time; and a first power supply which supplies a first heating signal to at least said first wire where said first heating signal comprises a plurality of first current pulses and where each of said first current pulses of said first heating signal creates a molten droplet on a distal end of at least said first wire which is deposited into said at least one puddle; and wherein each of said first current pulses reaches a peak current level after a distal end of said first wire contacts said at least one puddle, wherein said first heating signal has no current in between said plurality of said first current pulses; wherein said distal end of said first wire is not in contact with said at least one puddle between subsequent peak current levels of said first current pulses; and wherein said first power supply controls said first heating current such that no arc is created between said first wire and said work piece during said first current pulses. 18. The system of claim 17 , wherein said contact tip assembly has a consumable channel and each of said first and second wires passes through said consumable channel and shares said first heating signal. 19. The system of claim 17 , wherein said contact tip assembly comprises a first channel through which said first consumable passes and a second channel through which said second consumable passes. 20. The system of claim 17 , further comprising a second power supply which supplies a second heating signal to said second wire where said second heating signal comprises a plurality of second current pulses and where each of said second current pulses of said second heating signal creates a molten droplet on a distal end of said second wire which is deposited onto said workpiece, and wherein said second heating signal is different than said first heating signal. 21. The system of claim 17 , wherein said contact tip assembly comprises a first channel through which said first consumable passes and a second channel through which said second consumable passes, and said contact tip assembly further comprises a switch which electrically couples said first channel to said second channel. 22. The system of claim 21 , further comprising a second power supply which supplies a second heating signal to said second wire when said switch is in an open position.