Evolution Behavior of M23C6 Carbides Under Different Hot Deformation Conditions in Alloy 602 CA

Alloy 602 CA is a M23C6carbides strengthened Nickel-based superalloy. In this alloy, M23C6is different from that found inother superalloys because of its high volume fraction, wide size distribution and distinct precipitation locations. To investigateM23C6evolution behaviors during hot deformation in Alloy 602 CA, a series of tests are carried out in this study. Thetest temperature ranges from 900 to 1100 °C and strain rate ranges from 0.001 to 0.1 s−1, with a true strain of 0.7. It is foundthat hot deformation of the material decreases the distance between carbides which leads merging happening to changethe morphology of primary M23C6. Secondary carbides mainly come from the dissolution of large primary carbides andprecipitate along grain boundaries and twin boundaries which impede dynamic recrystallization (DRX) from happening. Volume fractions of M23C6decrease from 900 to 1100 °C. At 900 °C and 1100 °C, the precipitation equilibrium is reachedin the preheating period before hot deformation and deformation only change the size distribution of carbides. 1000 °C isa transition temperature where the volume fraction decreases as strain rate increases. The temperature rise initiated by adiabaticheating has a great influence on this precipitation behavior.