2004 Volume 44 Issue 9 Pages 1581-1589
Commercial 304 austenitic stainless steel was deformed in compression at high temperatures (800 to 1280°C) and at strain rates from 0.001 to 1 s−1. The critical and peak strains associated with dynamic recrystallization were determined based on changes in the work hardening rate as a function of the flow stress. The effect of the deformation variables (T, ε) on these values is analyzed; it is shown that over a range of temperature corrected strain rate (Z=1014 to 1016 s−1, Qdef=405 kJ/mol), the initiation of dynamic recrystallization is delayed. This retardation is attributed to the segregation of substitutional impurity elements, principally phosphorus, to the sub-boundaries of the newly-forming DRX grains.