Thermo-mechanical processing of nickel-base alloys

What is claimed is: 1. A process comprising: heating a nickel-base alloy workpiece in a first heating operation to a temperature greater than a M 23 C 6 carbide solvus temperature of the nickel-base alloy; working the nickel-base alloy workpiece in a first working operation to a reduction in area of 20% to 70%, based on a cross-sectional area of the workpiece immediately prior to the first working operation, wherein the nickel-base alloy workpiece is at a temperature greater than a M 23 C 6 carbide solvus temperature when the first working operation begins; heating the nickel-base alloy workpiece in a second heating operation to a temperature in a range of 1700° F. to less than the M 23 C 6 carbide solvus temperature of the nickel-base alloy, wherein the nickel-base alloy workpiece is maintained at elevated temperature and not permitted to cool to ambient temperature between completion of the first working operation and beginning of the second heating operation; and working the nickel-base alloy workpiece in a second working operation to a second reduction in area of 20% to 70%, based on a cross-sectional area of the workpiece immediately prior to the second working operation, wherein the nickel-base alloy workpiece is at a temperature greater than 1700° F. and less than the M 23 C 6 carbide solvus temperature of the nickel-base alloy when the second working operation begins; wherein the nickel-base alloy workpiece comprises, by weight, up to 0.05% carbon, 27.0% to 31.0% chromium, up to 0.5% copper, 7.0% to 11.0% iron, up to 0.5% manganese, up to 0.015% sulfur, up to 0.5% silicon, at least 58% nickel, and incidental impurities. 2. The process of claim 1 , wherein the nickel-base alloy workpiece comprises, by weight, up to 0.05% carbon; 28.0% to 30.0% chromium; up to 0.25% copper; 8.0% to 10.0% iron; up to 0.25% manganese; up to 0.010% sulfur; up to 0.25% silicon; at least 58% nickel; and incidental impurities. 3. The process of claim 1 , wherein the first working operation and the second working operation independently comprise at least one operation selected from the group consisting of flat rolling, ring rolling, roll forming, press forging, extruding, and rotary forging. 4. The process of claim 1 , wherein the first working operation and the second working operation comprise rotary forging. 5. The process of claim 1 , wherein the first heating operation comprises heating the nickel-base alloy workpiece in a furnace operating at 2000° F. to 2125° F. for at least 3.0 hours time-at-temperature. 6. The process of claim 1 , wherein the second heating operation comprises heating the nickel-base alloy workpiece in a furnace operating at 1700° F. to 1950° F. for greater than 2.0 hours furnace time. 7. The process of claim 1 , wherein the second heating operation comprises heating the nickel-base alloy workpiece in a furnace operating at 1700° F. to 1950° F. for 3.0 hours to 10.0 hours furnace time. 8. The process of claim 1 , wherein the second heating operation comprises heating the nickel-base alloy workpiece in a furnace operating at 1700° F. to 1950° F. for 4.0 hours to 8.0 hours furnace time. 9. The process of claim 1 , further comprising: vacuum induction melting feed materials to form a nickel-base alloy ingot; remelting the nickel-base alloy ingot to form a refined nickel-base alloy ingot, wherein the remelting comprises at least one remelting operation selected from the group consisting of vacuum arc remelting and electroslag remelting; and press forging the refined nickel-base alloy ingot to form the nickel-base alloy workpiece. 10. The process of claim 1 , further comprising, after the first and second heating operations and the first and second working operations: heating the nickel-base alloy workpiece at a temperature of at least 1800° F., but no greater than a M 23 C 6 carbide solvus temperature of the nickel-base alloy, for at least 3.0 hours time-at-temperature; and water quenching the workpiece. 11. The process of claim 1 , further comprising, after the first and second heating operations and the first and second working operations: aging the nickel-base alloy workpiece at a temperature of 1300° F. to 1400° F. for at least 3.0 hours time-at-temperature; and air cooling the workpiece to ambient temperature. 12. A process comprising: heating a nickel-base alloy workpiece in a first heating operation to a temperature greater than a M 23 C 6 carbide solvus temperature of the nickel-base alloy, wherein the nickel-base alloy workpiece comprises, by weight, up to 0.05% carbon, 27.0% to 31.0% chromium, up to 0.5% copper, 7.0% to 11.0% iron, up to 0.5% manganese, up to 0.015% sulfur, up to 0.5% silicon, at least 58% nickel, and incidental impurities; working the nickel-base alloy workpiece in a first working operation to a reduction in area of 20% to 70%, wherein the nickel-base alloy workpiece is at a temperature greater than a M 23 C 6 carbide solvus temperature when the first working operation begins; heating the nickel-base alloy workpiece in a second heating operation to a temperature in a range of 1700° F. to 1950° F., wherein the nickel-base alloy workpiece is maintained at elevated temperature and not permitted to cool to ambient temperature between completion of the first working operation and beginning of the second heating operation; and working the nickel-base alloy workpiece in a second working operation to a second reduction in area of 20% to 70%, wherein the nickel-base alloy workpiece is at a temperature greater than 1700° F. and less than the M 23 C 6 carbide solvus temperature of the nickel-base alloy when the second working operation begins. 13. The process of claim 12 , wherein the nickel-base alloy workpiece comprises, by weight, up to 0.05% carbon; 28.0% to 30.0% chromium; up to 0.25% copper; 8.0% to 10.0% iron; up to 0.25% manganese; up to 0.010% sulfur; up to 0.25% silicon; at least 58% nickel; and incidental impurities. 14. The process of claim 12 , wherein the first working operation and the second working operation independently comprise at least one operation selected from the group consisting of flat rolling, ring rolling, roll forming, press forging, extruding, and rotary forging. 15. The process of claim 12 , wherein the first heating operation comprises heating the nickel-base alloy workpiece in a furnace operating at 2000° F. to 2125° F. for at least 3.0 hours time-at-temperature. 16. The process of claim 12 , wherein the second heating operation comprises heating the nickel-base alloy workpiece in a furnace operating at 1700° F. to 1950° F. for greater than 2.0 hours furnace time. 17. The process of claim 12 , wherein the second heating operation comprises heating the nickel-base alloy workpiece in a furnace operating at 1700° F. to 1950° F. for 3.0 hours to 10.0 hours furnace time. 18. The process of claim 12 , wherein the second heating operation comprises heating the nickel-base alloy workpiece in a furnace operating at 1700° F. to 1950° F. for 4.0 hours to 8.0 hours furnace time. 19. The process of claim 12 , further comprising: vacuum induction melting feed materials to form a nickel-base alloy ingot; remelting the nickel-base alloy ingot to form a refined nickel-base alloy ingot, wherein the remelting comprises at least one remelting operation selected from the group consisting of vacuum arc remelting and electroslag remelting; and press forging the refined nickel-base alloy ingot to form the nickel-base alloy workpiece. 20. The process of claim 12 ,