Low melting point braze alloy for high temperature applications

What is claimed is: 1. A method for repairing at least one crack in a nickel-base superalloy component comprising: a) applying to said at least one crack a quantity of a braze alloy having substantially the following composition in weight percents: Ni(X Ni )—Cr(X Cr )—Ti(X Ti )—Al(X Al )—Co(X Co )—W(X W )—Mn(X Mn )—Ta(X Ta ) wherein said weight percentages X z lie in the following ranges: 12%≦X Cr ≦16%, 13%≦X Ti ≦16%, 0%<X Al ≦2%, 2%≦X Co ≦4%, 3%≦X W ≦5%, 0%<X Mn ≦2%, 0%<X Ta ≦2%, X Ni =(balance), and; b) brazing said nickel-base superalloy component having said braze alloy in said at least one crack at a brazing temperature in the range from approximately 1225 deg. C. to approximately 1250 deg. C., wherein said nickel-base superalloy is not substantially damaged at said brazing temperature. 2. A method as in claim 1 wherein said nickel-base superalloy component is Alloy 247. 3. A method as in claim 2 wherein said brazing is performed for a time of approximately 2 hours. 4. A repaired nickel-base superalloy component having at least one crack therein repaired by the method of claim 1 . 5. A repaired component of Alloy 247 having at least one crack therein repaired by the method of claim 2 . 6. A method for repairing at least one crack in a nickel-base superalloy component comprising: a) preparing a braze alloy having substantially the following composition in weight percents: Ni(X Ni )—Cr(X Cr )—Ti(X Ti )—Al(X Al )—Co(X Co )—W(X W )—Mn(X Mn )—Ta(X Ta ) wherein said weight percentages X z lie in the following ranges: 12%≦X Cr ≦16%, 13%≦X Ti ≦16%, 0%<X Al ≦2%, 2%≦X Co ≦4%, 3%≦X W ≦5%, 0%<X Mn ≦2%, 0%<X Ta ≦2%, X Ni =(balance), and; b) mixing said braze alloy with a powder having substantially the same composition as said nickel-base superalloy component thereby preparing a braze mixture, and; c) applying said braze mixture to said at least one crack, and; d) brazing said component having said braze mixture in said at least one crack at a brazing temperature in the range from approximately 1225 deg. C. to approximately 1250 deg. C., wherein said nickel-base superalloy is not substantially damaged at said brazing temperature. 7. A method as in claim 6 wherein said nickel-base superalloy component is Alloy 247. 8. A method as in claim 7 wherein said brazing is performed for a time of approximately 2 hours. 9. A repaired nickel-base superalloy component having at least one crack therein repaired by the method of claim 6 . 10. A repaired component of Alloy 247 having at least one crack therein repaired by the method of claim 7 .