Abstract
Austenitic stainless steels (SSs) are widely used in different components of nuclear plants. The NF709 (20Cr-25Ni-1.5MoTiNb) class of alloy was recently selected for development as a candidate structural material for sodium-cooled fast reactors due to its improved creep and corrosion resistance compared with 300-series austenitic SSs. This requires new understanding of the radiation response of the 709 class alloys.
In this study, we correlated the mechanical changes with the proton-induced microstructural and chemical evolutions of a 20Cr-25Ni model alloy M709 and a 20Cr-25Ni-1.5MoNb alloy A709. The irradiation was conducted using 2 MeV protons at 670 ± 20 ºC to achieve 1.5 displacements per atom (dpa) at the middle of the proton project range. Sample characterization was achieved using nanoindentation, focused ion beam (FIB), scanning electron microscopy (SEM), energy-dispersive X-ray spectroscopy (EDS) and transmission electron microscopy techniques (TEM).