Characterization of creep deformation and rupture behaviour of P92 steel weldment at 600°C

Abstract: P92 steel is a potential candidate for ultra-supercritical (USC) plant component. Thus, its suitability and performance for future service are still under investigation. Understanding the creep behaviour is essential to design the components that can sustain in service over a certain period. With the intention to investigate the creep deformation and rupture behaviour of P92 steel weldment, four cross-weld creep specimens were prepared and tested at 600°C at different stress levels. All specimens ruptured betw… Show more

“…The decrease of dislocation density in low annealing temperatures was reported in pure iron [34,35]. It happened due to the partial annihilation of stored dislocation by the recovery process and the change from non-equilibrium grain boundaries to equilibrium grain boundaries and the relaxation of internal elastic stress [34,36,37].…”

Effect of strain energy on the grain growth behaviour of ultrafine-grained iron-chromium alloy by equal channel angular pressing

“…The decrease of dislocation density in low annealing temperatures was reported in pure iron [34,35]. It happened due to the partial annihilation of stored dislocation by the recovery process and the change from non-equilibrium grain boundaries to equilibrium grain boundaries and the relaxation of internal elastic stress [34,36,37].…”

Effect of strain energy on the grain growth behaviour of ultrafine-grained iron-chromium alloy by equal channel angular pressing

Application of the Small Punch Creep Test in Predicting Creep Properties of Grade 91 Steel

Deformation behavior, microstructure evolution, and rupture mechanism of the novel G115 steel welded joint during creep