Ultra-high strength multphase high-entropy alloys

We claim: 1. An alloy having Al and Ti as major alloy constituents and Nb, Zr, Mo, and Ta as minor alloy constituents whose minor collective content is effective to provide a polyphase microstructure including at least four compositionally distinct intermetallic phases. 2. The alloy of claim 1 having Al+Ti content that is greater than 50 atomic %. 3. The alloy of claim 1 having substantially coherent interphase boundaries having a misorientation less than 2° between boundary phases. 4. A structure comprising the alloy of claim 1 that is at least one of an as-built AM structure, a sintered structure, and a solidified structure. 5. A 3D structure comprising the alloy of claim 1 . 6. A method comprising building a 3D structure that comprises the alloy of claim 1 by additive manufacturing. 7. A method comprising building a sintered structure that comprises the alloy of claim 1 by sintering powders of the alloy. 8. An alloy having a composition represented by Al 0.42 Ti 0.25 Nb 0.13 Zr 0.08 Mo 0.08 Ta 0.04 that has a polyphase microstructure including at least four (4) compositionally distinct intermetallic phases or variants of the composition wherein content of at least one of Al, Ti, Nb, Zr, Mo, and Ta is so varied that the alloy has Al+Ti content greater than 50 atomic % and that the alloy has a polyphase microstructure including four (4) compositionally distinct intermetallic phases and exhibits a mechanical strength that is independent of temperature up to 800° C. 9. An alloy having a composition represented by Al 0.42 Ti 0.25 Nb 0.13 Zr 0.08 Mo 0.08 Ta 0.04 that has a polyphase microstructure including at least four (4) compositionally distinct intermetallic phases or variants of the composition wherein content of at least one of Al, Ti, Nb, Zr, Mo, and Ta is so varied that Al+Ti content is greater than 50 atomic % and that the alloy has a polyphase microstructure including at least four (4) compositionally distinct intermetallic phases. 10. The alloy of claim 9 having substantially coherent interphase boundaries having a misorientation of less than 2° between boundary phases. 11. The alloy of claim 9 that exhibits a specific strength equal 15 to hardness:density ratio at room temperature of 1.8 to 2.6 GPa-cm 3 /g. 12. A structure comprising the alloy of claim 9 . 13. The structure of claim 12 that is at least one of an as-built AM structure, a sintered structure, and a solidified structure. 14. A deposited layer comprising the alloy of claim 9 . 15. An alloy having an Al content greater than 20 atomic % to less than about 70 atomic %, an Al+Ti content greater than 55 atomic % and less than about 75 atomic %, and a collective content of Nb, Zr, Mo, and Ta of about 25 atomic % to about 45 atomic % wherein the alloy has a polyphase microstructure including at least four compositionally distinct intermetallic phases. 16. The alloy of claim 15 having Al content from 20 to 70 atomic %, and an Al+Ti content from 65 to less than 75 atomic %. 17. The alloy of claim 15 having substantially coherent interphase boundaries having a misorientation less than 2° between boundary phases. 18. The alloy of claim 15 that exhibits a mechanical strength or hardness that is independent of temperature up to 800° C. 19. The alloy of claim 15 that exhibits a specific strength equal to hardness:density ratio at room temperature of 1.8 to 2.6 GPa-cm 3 /g. 20. A deposited layer comprising the alloy of claim 15 .