Patent ID: 8790473

Claim:
A method of forging comprising: a first forging action conducted at a temperature of greater than 1800° F. (982° C.) that changes the shape of a metallic alloy work piece of a nickel-based alloy having a composition comprising 50-55 wt. % nickel, 17-21 wt. % chromium, 2.8-3.3 wt. % molybdenum, 4.75-5.5 wt. % niobium, 0.65-1.15 wt. % titanium, 0.2-0.8 wt. % aluminum and a balance of iron and trace elements, the first forging action causes 40% to 80% reduction in forging height of the metallic alloy work piece and the metallic alloy work piece has an average grain size after the first forging action in a range of ASTM 6-10 and non-uniformly distributed, and; a second forging action conducted at a temperature of 1650-1825° F. (898-996° C.) that further changes the shape of the metallic alloy work piece after the first forging action, the second forging action causes 2-10% further reduction in the forging height of the metallic alloy work piece and the metallic alloy work piece has an average grain size after the second forging action in a range of ASTM 9-12 and homogeneous; and a heat treatment step conducted after the first forging action and prior to the second forging action, the heat treatment step including holding the metallic alloy work piece at a heat treatment temperature for a predetermined amount of time to alter the microstructure of the metallic alloy work piece without the application of a forging action that changes the shape of the metallic alloy work piece, and the heat treatment temperature is 1650-1850° F. (898-1010° C.) and the predetermined amount of time is 5-60 minutes.