R. G. Faulkner scite author profile

Continuum creep damage mechanics modelling of creep has been combined with the recently developed Monte Carlo simulations of precipitation kinetics in power plant ferritic steels. The precipitation simulation has been validated by applying it to a 9 wt-%Cr ferritic steel, P92 and using the microstructural data published in the literature. The microstructural evolution results of precipitation kinetics simulation are used in the continuum creep damage mechanics model to calculate the damage evolution instead of the model equations developed for specific creep damage. This approach has been applied to P92 to study the effects of different creep damage mechanisms on the creep behaviour. Reasonable agreement with experimental creep rupture data and creep curves has been obtained. The new approach shows promise to provide a useful tool for both new alloy development and component life prediction.

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Effect of heat treatment on microstructure and hardness of Eurofer 97, Eurofer ODS and T92 steels

Faulkner

Riddle

et al. 2009

Journal of Nuclear Materials

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Validation of the shear punch–tensile correlation technique using irradiated materials

Hankin

Toloczko

Hamilton

et al. 1998

Journal of Nuclear Materials

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R. G. Faulkner

Non-equilibrium grain-boundary segregation in austenitic alloys

Irradiation-induced grain boundary chromium microchemistry in high alloy ferritic steels

Continuum damage mechanics modelling based on simulations of microstructural evolution kinetics

Effect of heat treatment on microstructure and hardness of Eurofer 97, Eurofer ODS and T92 steels

Validation of the shear punch–tensile correlation technique using irradiated materials

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