Microstructural evolution of delta ferrite in SAVE12 steel under heat treatment and short-term creep

This research focused on the formation and microstructural evolution of delta ferrite phase in SAVE12 steel. The formation of delta ferrite was due to the high content of ferrite forming alloy elements such as Cr, W, and Ta. This was interpreted through either JMatPro-4.1 computer program or Creq calculations. Delta ferrite was found in bamboo-like shape and contained large amount of MX phase. It was surrounded by Laves phases before creep or aging treatment. Annealing treatments were performed under temperatures from 1050 °C to 1100 °C and various time periods to study its dissolution kinetics. The result showed that most of the delta ferrite can be dissolved by annealing in single phase austenitic region. Dissolution process of delta ferrite may largely depend on dissolution kinetic factors, rather than on thermodynamic factors. Precipitation behavior during short-term (1100 h) creep was investigated at temperature of 600 °C under a stress of 180 MPa. The results demonstrated that delta ferrite became preferential nucleation sites for Laves phase at the early stage of creep. Laves phase on the boundary around delta ferrite showed relatively slower growth and coarsening rate than that inside delta ferrite.

► Delta ferrite is systematically studied under heat treatment and short-term creep.
► Delta ferrite contains large number of MX phase and is surrounded by Laves phases before creep or aging treatment.
► Formation of delta ferrite is interpreted by theoretical and empirical methods.
► Most of the delta ferrite is dissolved by annealing in single phase austenitic region.
► Delta ferrite becomes preferential nucleation sites for Laves phase at the early stage of creep.