M. S. Merezhko scite author profile

The influence has been studied of thermo-mechanical treatment, sensitization conditions, and neutron irradiation on the pitting corrosion resistance of austenitic 316LN stainless steel variants in 10% FeCl3•6H2O at 22°C. Variants of this steel were modified with additions of nitrogen, manganese, copper, and tungsten, as well as testing cast, coldrolled, grain boundary engineered (GBE), and as-received variants. It was found that the 316LN steel variant with additions of 0.2 % N and 2 % Mn had the best pitting corrosion resistance of all studied conditions. When irradiated in a light water reactor (LWR) to a maximum fluence of 3•10 17 n/cm 2 (E > 1.1 MeV, Tirr < 50°C), neutron irradiation surprisingly increased the resistance of GBE steels to pitting corrosion. An anisotropy of corrosion resistance of GBE and cold rolled steels was observed.

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M. S. Merezhko

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FORMATION OF PLASTIC PROPERTIES OF 12Cr18Ni10Ti STEEL HIGHLY IRRADIATED BY NEUTRONS

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

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