A titanium base alloy powder having lesser amounts of aluminum and vanadium with an alkali or alkaline earth metal being present in an amount of less than about 200 ppm. The alloy powder is neither spherical nor angular and flake shaped. 6/4 alloy is specifically disclosed having a packing fraction
A titanium base alloy powder having lesser amounts of aluminum and vanadium with an alkali or alkaline earth metal being present in an amount of less than about 200 ppm. The alloy powder is neither spherical nor angular and flake shaped. 6/4 alloy is specifically disclosed having a packing fraction or tap density between 4 and 11%, as is a method for making the various alloys.
대표청구항▼
1. A titanium base alloy powder comprising: pre-alloy particles, a majority of the pre-alloy particles having a composition of at least 50% by weight of titanium, 5.38% or more by weight of aluminum, 3.45% or more by weight of vanadium, and less than about 200 ppm alkali or alkaline earth metal, whe
1. A titanium base alloy powder comprising: pre-alloy particles, a majority of the pre-alloy particles having a composition of at least 50% by weight of titanium, 5.38% or more by weight of aluminum, 3.45% or more by weight of vanadium, and less than about 200 ppm alkali or alkaline earth metal, wherein the total amount of aluminum and vanadium is less than about 20% by weight, and whereinthe titanium base alloy powder has a tap density in a range of from about 4% to about 11% and a Brunauer, Emmett, and Teller (BET) specific surface area of at least about 3 square meters per gram, and meets ASTM B265 grade 5 chemical specifications. 2. The alloy powder of claim 1, wherein said alloy powder comprises agglomerates having an average mean diameter as measured by sieve analysis greater than about 50 microns. 3. The alloy powder of claim 1, wherein sodium and magnesium and calcium are present in an amount of less than about 100 ppm. 4. The alloy powder of claim 1 formed into a sintered product. 5. A solid object made from the alloy powder of claim 1. 6. The alloy powder of claim 1 wherein the aluminum is in a range of 5.38% to 6.95% by weight and the vanadium is in a range of 3.45% to 4.87% by weight. 7. The alloy powder of claim 1 wherein the majority of pre-alloy particles are neither spherical nor angular and flake shaped. 8. A titanium base alloy powder comprising: pre-alloy particles, a majority of the pre-alloy particles having 50% or more by weight of titanium, about 5.38% to 6.95% by weight of aluminum and about 3% to about 5% by weight of vanadium, and whereinthe titanium base alloy powder has an alkali or alkaline earth metal content of less than about 200 ppm, a tap density in a range of from about 4% to about 11%, and a Brunauer, Emmett, and Teller (BET) specific surface area of at least about 3 square meters per gram, and meets ASTM B265 grade 5 chemical specifications. 9. The alloy of claim 8, wherein said alloy powder comprises agglomerates having an average mean diameter as measured by sieve analysis greater than about 50 microns. 10. The alloy powder of claim 8, wherein sodium and magnesium and calcium are present in an amount of less than about 100 ppm. 11. The alloy powder of claim 8 agglomerated as seen in FIGS. 10-12. 12. The alloy powder of claim 8 formed into a sintered product. 13. A solid object made from the alloy powder of claim 8. 14. The alloy powder of claim 8 wherein the aluminum in the majority of pre-alloy particles is in a range of 5.5% to 6.75% by weight and the vanadium is in a range of 3.45% to 4.87% by weight. 15. The alloy powder of claim 8 wherein the pre-alloy particles are neither spherical nor angular and flake shaped. 16. A titanium base alloy powder comprising pre-alloy particles, each pre-alloy particle having: 50% or more by weight of titanium, about 5.38% or more by weight of aluminum and about 3.45% or more by weight of vanadium, wherein the total amount of aluminum and vanadium is less than about 20% by weight, and an alkali or alkaline earth metal present in the alloy in an amount less than about 200 ppm, and whereinthe titanium base alloy powder has a tap density in a range of from about 4% to about 11% and a Brunauer, Emmett, and Teller (BET) specific surface area of at least about 3 square meters per gram, and meets ASTM B265 grade 5 chemical specifications. 17. The alloy powder of claim 16, wherein sodium and calcium and magnesium are present in the pre-alloy particles in an amount of less than about 100 ppm. 18. The alloy powder of claim 16 agglomerated as seen in FIGS. 10-12. 19. The alloy powder of claim 16 formed into a sintered product. 20. A solid object made from the alloy powder of claim 16. 21. The alloy powder of claim 16 wherein the aluminum in each pre-alloy particle is in a range of 5.38% to 6.95% by weight and the vanadium is in a range of 3.45% to 4.87% by weight. 22. The alloy powder of claim 16 wherein the pre-alloy particles are neither spherical nor angular and flake shaped. 23. A titanium base alloy powder having: pre-alloy particles, a majority of the pre-alloy particles having a composition of 50% or more by weight of titanium, 5.38% to 6.95% by weight of aluminum and 3% to 5% by weight of vanadium, and an alkali or an alkaline earth metal content of less than about 200 ppm, the pre-alloy particles made by the subsurface reduction of a chloride vapor with a molten alkali metal or a molten alkaline earth metal, and wherein the titanium base alloy powder has a tap density in a range of from about 4% to about 11%, has a Brunauer, Emmett, and Teller (BET) specific surface area of at least about 3 square meters per gram, and meets ASTM B265 grade 5 chemical specifications. 24. The alloy powder of claim 23, wherein sodium and calcium and magnesium are present in the pre-alloy particles in an amount of less than about 100 ppm. 25. The alloy powder of claim 23, wherein the molten alkali metal is flowing liquid sodium and the chloride vapor is introduced at greater than sonic velocity into the flowing liquid sodium. 26. The alloy powder of claim 23 agglomerated as seen in FIGS. 10-12. 27. The alloy powder of claim 23 formed into a sintered product. 28. A solid object made from the alloy powder of claim 23. 29. The alloy powder of claim 23 wherein the aluminum in the majority of pre-alloy particles is in a range of 5.5% to 6.75% by weight and the vanadium is in a range of 3.45% to 4.87% by weight. 30. The alloy powder of claim 23 wherein the pre-alloy particles are neither spherical nor angular and flake shaped. 31. A titanium base alloy powder comprising: pre-alloy particles, each pre-alloy particle having 50% or more by weight of titanium, about 5.38% to 6.95% by weight of aluminum and about 3% to about 5% by weight of vanadium, and an alkali or alkaline earth metal present in an amount less than about 100 ppm, the pre-alloy particles agglomerated substantially as seen in FIGS. 10-12, and wherein the titanium base alloy powder has a tap density in a range of from about 4% to about 11%, has a Brunauer, Emmett, and Teller (BET) specific surface area of at least about 3 square meters per gram, and meets ASTM B265 grade 5 chemical specifications. 32. The alloy powder of claim 31 formed into a sintered product. 33. A solid object made from the alloy powder of claim 31. 34. The alloy powder of claim 31 wherein the aluminum in each pre-alloy particle is in a range of 5.5% to 6.75% by weight and the vanadium is in a range of 3.45% to 4.87% by weight. 35. The alloy powder of claim 31 wherein the pre-alloy particles are neither spherical nor angular and flake shaped.
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