Effect of ausforming temperature on creep strength of G91 investigated by means of small punch creep tests

The stability of the martensitic microstructure in ferritic/martensitic G91 steel at operating temperatures up to 700 ºC might be improved by means of ausforming thermomechanical treatments. The goal sought is to promote the formation of a high number density of MX nanoprecipitates in the martensitic microstructure obtained after a subsequent tempering. This work is focused on the effect of the ausforming temperature. The results show that the lower the ausforming temperature is the higher is the dislocation density obtained in ausformed fresh martensite and the larger the number density of MX carbonitrides after tempering are. Creep strength, evaluated by Small Punch Creep Tests has allowed us to conclude that the best creep behavior was obtained for the steel ausformed at lower the temperature due to the higher pinning force for dislocation motion triggered by the distribution of MX. The creep results obtained on the ausformed samples were compared with those after the conventional heat treatment, showing that the high density of MX carbonitrides after an ausforming thermomechanical treatment is a promising processing to raise the operation temperature of this steel.