Nickel-aluminium-zirconium alloys

We claim: 1. A Nickel-Aluminum-Zirconium alloy comprising a plurality of intermetallic phases, wherein a composition of Aluminum (Al) and Zirconium (Zr) within the Nickel-Aluminum-Zirconium alloy is in a range of about 13.5 to about 19, about 4 to about 14 by atomic percentages, respectively, with the balance being Nickel; wherein the plurality of intermetallic phases is selected from the group consisting of at least two of Ni 3 Al, NiAl, Ni 5 Zr, Ni 7 Zr 2 and a combination of structural derivatives of the corresponding intermetallic phases; wherein the Nickel-Aluminum-Zirconium alloy includes at least one eutectic composition comprising eutectic constituents Ni 3 Al+Ni 5 Zr, Ni 3 Al+Ni 7 Zr 2 , NiAl+Ni 7 Zr 2 , or combinations thereof. 2. The Nickel-Aluminum-Zirconium alloy as claimed in claim 1 wherein the Nickel-Aluminum-Zirconium alloy is characterized by a yield strength of at least 0.8 Giga Pascal (GPa) at room temperature and a yield strength of at least 0.8 GPa at 700° C. 3. The Nickel-Aluminum-Zirconium alloy as claimed in claim 1 , further comprising at least one primary solidification phase, wherein the at least one primary solidification phase is one of Ni 3 Al, Ni 5 Zr, Ni Zr 2 and NiAl. 4. The Nickel-Aluminum-Zirconium alloy as claimed in claim 3 , further comprising at least one additive, wherein at least one additive is one of an alloying additive and a trace additive. 5. The Nickel-Aluminum-Zirconium alloy as claimed in claim 3 wherein the Nickel-Aluminum-Zirconium alloy is characterized by a yield strength of at least 0.8 Giga Pascal (GPa) at room temperature and a yield strength of at least 0.8 GPa at 700° C. 6. The Nickel-Aluminum-Zirconium alloy as claimed in claim 1 , further comprising at least one additive, wherein at least one additive is one of an alloying additive and a trace additive. 7. The Nickel-Aluminum-Zirconium alloy as claimed in claim 6 wherein the Nickel-Aluminum-Zirconium alloy is characterized by a yield strength of at least 0.8 Giga Pascal (GPa) at room temperature and a yield strength of at least 0.8 GPa at 700° C. 8. The Nickel-Aluminum-Zirconium alloy as claimed in claim 6 , wherein the at least one additive is selected from the group consisting of Hafnium (Hi), Scandium (Sc), Cobalt (Co), Platinum (Pb), Palladium (Pd), Chromium (Cr), Ruthenium (Ru), Rhenium (Re), Tantalum (Ta), Titanium (Ti), Niobium (Nb), Molybdenum (Mo), and Tungsten (W). 9. The Nickel-Aluminum-Zirconium alloy as claimed in claim 8 wherein the Nickel-Aluminum-Zirconium alloy is characterized by a yield strength of at least 0.8 Giga Pascal (GPa) at room temperature and a yield strength of at least 0.8 GPa at 700° C. 10. The Nickel-Aluminum-Zirconium alloy as claimed in claim 8 , wherein the at least one additive retains eutectic constituents within the Nickel-Aluminum-Zirconium alloy. 11. The Nickel-Aluminum-Zirconium alloy as claimed in claim 10 wherein the Nickel-Aluminum-Zirconium alloy is characterized by a yield strength of at least 0.8 Giga Pascal (GPa) at room temperature and a yield strength of at least 0.8 GPa at 700° C. 12. The Nickel-Aluminum-Zirconium alloy as claimed in claim 10 wherein the Nickel-Aluminum-Zirconium alloy is characterized by a yield strength of at least 0.8 Giga Pascal (GPa) at room temperature and a yield strength of at least 0.8 GPa at 700° C.