Method for repairing fuel nozzle guides for gas turbine engine combustors using cold metal transfer weld technology

What is claimed is: 1. A fuel nozzle guide for a combustor of a turbine engine comprising: an annular base with a hub section, wherein the hub section includes a Cold Metal Transfer (CMT) weld, wherein said Cold Metal Transfer (CMT) weld defines a lip of said hub section, and wherein the Cold Metal Transfer (CMT) weld is a continuous weld. 2. The fuel nozzle guide as recited in claim 1 , wherein said hub section is frusto-conical. 3. The fuel nozzle guide as recited in claim 1 , wherein said lip has a first diameter and said annular base has a second diameter, and said first diameter is less than said second diameter. 4. The fuel nozzle guide as recited in claim 3 , wherein a portion of said fuel nozzle guide between said annular base and said lip has a third diameter, and said third diameter is less than said first and second diameters. 5. The fuel nozzle guide as recited in claim 1 , wherein the fuel nozzle guide is a cast metal component. 6. The fuel nozzle guide as recited in claim 1 , wherein the hub section defines a central opening configured to receive a fuel nozzle. 7. The fuel nozzle guide as recited in claim 6 , wherein the central opening receives the at least one fuel nozzle in a slip fit relationship. 8. The fuel nozzle guide as recited in claim 6 , wherein the central opening is configured to receive the fuel nozzle such that a centerline of the fuel nozzle guide is concurrent with a centerline of the fuel nozzle. 9. The fuel nozzle guide as recited in claim 1 , wherein said hub section is frusto-conical, wherein said Cold Metal Transfer (CMT) weld defines a lip of said hub section, said lip having a first diameter and said annular base having a second diameter, and said first diameter is less than said second diameter, and wherein a portion of said fuel nozzle guide between said annular base and said lip has a third diameter, and said third diameter is less than said first and second diameters. 10. The fuel nozzle guide as recited in claim 1 , wherein the hub section defines a central opening configured to receive a fuel nozzle, and the central opening receives the at least one fuel nozzle in a slip fit relationship, such that a centerline of the fuel nozzle guide is concurrent with a centerline of the fuel nozzle. 11. A combustor, comprising: a combustor case; first and second combustor liners within the combustor case, the first and second combustor liners defining a combustion chamber therebetween; a forward assembly, the forward assembly including an annular hood, at least one bulkhead assembly, at least one fuel nozzle aligned with the at least one bulkhead assembly, and at least one fuel nozzle guide aligned with the at least one fuel nozzle to define at least one central opening, wherein the at least one fuel nozzle guide includes an annular base with a hub section, wherein the hub section includes a Cold Metal Transfer (CMT) weld, wherein the Cold Metal Transfer (CMT) weld defines a lip of the hub section, and wherein the Cold Metal Transfer (CMT) weld is a continuous weld. 12. The combustor of claim 11 , wherein the annular hood extends radially between, and is secured to, forwardmost ends of the first and second combustor liners. 13. The combustor of claim 11 , wherein the annular hood includes at least one circumferentially distributed hood port, the at least one circumferentially distributed hood port supporting the at least one fuel nozzle. 14. The combustor of claim 13 , wherein the at least one fuel nozzle projects through the at least one hood port and the at least one central opening within the at least one fuel nozzle guides. 15. The combustor of claim 11 , wherein at least one fuel nozzle guide projects through the at least one bulkhead assembly. 16. The combustor of claim 15 , wherein the at least one bulkhead assembly includes a bulkhead support shell secured to the first and second combustor liners and at least one circumferentially distributed bulkhead heatshields segment secured to the bulkhead support shell around the at least one central opening. 17. The combustor of claim 11 , wherein the lip is axially closer to said combustion chamber than the annular base along an axis of the annular hood. 18. The fuel nozzle guide as recited in claim 1 , wherein the Cold Metal Transfer (CMT) weld is free from interruptions but for a single start and a single end. 19. The fuel nozzle guide as recited in claim 18 , wherein the starting point and the ending point are at the same location of the hub section. 20. The combustor of claim 11 , wherein said hub section is frusto-conical, wherein said Cold Metal Transfer (CMT) weld defines a lip of said hub section, said lip having a first diameter and said annular base having a second diameter, and said first diameter is less than said second diameter, and wherein a portion of said fuel nozzle guide between said annular base and said lip has a third diameter, and said third diameter is less than said first and second diameters. 21. The combustor of claim 11 , wherein the hub section defines a central opening configured to receive a fuel nozzle, and the central opening receives the at least one fuel nozzle in a slip fit relationship, such that a centerline of the fuel nozzle guide is concurrent with a centerline of the fuel nozzle. 22. The combustor of claim 11 , wherein the forward assembly is configured to introduce primary core combustion air into a forward end of the combustion chamber. 23. The combustor of claim 22 , wherein the at least one fuel nozzle comprises multiple fuel nozzles, and the multiple fuel nozzles are configured to generate a swirling, blended mixture of fuel and air and provide the swirling, blended mixture to the combustion chamber.