Recovery in 15%Cr ferritic stainless steel after large strain deformation

15%Cr ferritic stainless steel was machined in rectangular samples and then processed by multiple forging to a total cumulative strain of 7.2 at an ambient temperature. The large strain deformation resulted in almost epuiaxed submicrocrystal line structure with a mean grain/subgrain size of 230 nm and about 2.2 x 10(14) m(-2) dislocation density in grain/subgrain interiors. The annealing at a relatively low temperature of 500 degrees C did not lead to any discontinuous recrystallizations. The grain/subgrain size and the interior dislocation density slightly changed to 240 nm and 2.1 x 10(14) m(-2), respectively, after annealing for 30 min, while the Vickers hardness decreased from 3140 Mpa in the as-processed state to 2900 MPa. This annealing softening was attributed to remarkable release (by 50%) of internal stresses, which are associated with a non-equilibrium character of strain-induced grain/subgrain boundaries.