Raúl B. Rebak scite author profile

a b s t r a c tAssessment of the thermodynamics of SiC corrosion under light water reactor coolant environments suggests that silica formation is always expected in the range of applicable pH and potential. Autoclave testing of SiC-based materials in the absence of ionizing radiation was performed. The kinetics data from these tests, when compared with kinetics of silica dissolution in water and post-exposure characterization of SiC samples, suggest that oxidation of SiC to form silica is the rate-limiting step for recession of SiC in high temperature water. Oxygen activity in water was determined to play an important role in SiC recession kinetics. A simplified model of a power loop shows the effect of silica dissolution from the hot region (resembling fuel) and deposition in the cold regions.

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Uniform corrosion of FeCrAl alloys in LWR coolant environments

Terrani

Pint

Kim

et al. 2016

Journal of Nuclear Materials

192

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The corrosion behavior of commercial and model FeCrAl alloys and type 310 stainless steel was examined by autoclave tests and compared to Zircaloy-4, the reference cladding materials in light water reactors. The corrosion studies were carried out in three distinct water chemistry environments found in pressurized and boiling water reactor primary coolant loop conditions for up to one year. The structure and morphology of the oxides formed on the surface of these alloys was consistent with thermodynamic predictions. Spinel-type oxides were found to be present after hydrogen water chemistry exposures, while the oxygenated water tests resulted in the formation of very thin and protective hematite-type oxides. Unlike the alloys exposed to oxygenated water tests, the alloys tested in hydrogen water chemistry conditions experienced mass loss as a function of time. This mass loss was the result of net sum of mass gain due to parabolic oxidation and mass loss due to dissolution that also exhibits parabolic kinetics. The maximum thickness loss after one year of LWR water corrosion in the absence of irradiation was ~2μm, which is inconsequential for a ~300-500µm thick cladding.

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The origin and formation of oxygen inclusions in austenitic stainless steels manufactured by laser powder bed fusion

Deng

Karadge

Rebak

et al. 2020

Additive Manufacturing

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Raúl B. Rebak

Oxide inclusions in laser additive manufactured stainless steel and their effects on impact toughness and stress corrosion cracking behavior

Using electrochemical methods to determine alloy 22’s crevice corrosion repassivation potential

Hydrothermal corrosion of SiC in LWR coolant environments in the absence of irradiation

Uniform corrosion of FeCrAl alloys in LWR coolant environments

The origin and formation of oxygen inclusions in austenitic stainless steels manufactured by laser powder bed fusion

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