Investigation of Pitting Corrosion in Sensitized Modified High-Nitrogen 316LN Steel After Neutron Irradiation

“…It was observed that the deepest pit in the 316LN CW-TA-24 h sample has 144 µm deep, whereas 123 µm-deep pits were observed for the 316LN AR-TA-24 h sample. It was reported that pit depth was found to depend on the formation of the secondary phases, i.e microstructure [33]. Owing to more extent of Cr depletion at carbides in the cold-worked condition as discussed in DLEPR compared to as-received thermally aged condition more pit depths were observed .…”

Localised corrosion susceptibility of nitrogen-containing type 316LN stainless steel in cold work and thermally aged conditions

“…It was observed that the deepest pit in the 316LN CW-TA-24 h sample has 144 µm deep, whereas 123 µm-deep pits were observed for the 316LN AR-TA-24 h sample. It was reported that pit depth was found to depend on the formation of the secondary phases, i.e microstructure [33]. Owing to more extent of Cr depletion at carbides in the cold-worked condition as discussed in DLEPR compared to as-received thermally aged condition more pit depths were observed .…”

Localised corrosion susceptibility of nitrogen-containing type 316LN stainless steel in cold work and thermally aged conditions