Evolution of Precipitates of S31042 Heat Resistant Steel During 700 °C Aging

The evolution of precipitates of S31042 steel during 700 degrees C aging was investigated by using a scanning electron microscope, a transmission electron microscope, and electron energy spectrum technology. The various combinations of M23C6, MX, NbCrN, and sigma and G phases in the steel were found at different aging states. In the beginning of aging, M23C6 precipitates swiftly along the grain boundaries. When the aging time exceeds 6 000 h, precipitated M23C6 carbides along the grain boundaries turn to be granular. It was found that Si element segregates to grain boundaries during above process, which may enhance the granular shape of M23C6 carbides and its transformation to sigma and G phases. When the aging time exceeds 10 000 h, various shaped sigma phase and granular G phase appear along the grain boundaries and there are no continuous M23C6 carbides along the grain boundaries. Meanwhile, a large quantity of granular M23C6 carbides and a minor amount of G phase precipitate near the grain boundaries. Based on the segregation of silicon to the grain boundaries, a precipitation evolution model during aging was concluded.