Roy A. Castelli scite author profile

Corrosion resistant structural materials of both iron and nickel based alloys are used in the electric power industry for the construction of the coolant loops of both conventional and nuclear power generating stations. These materials, in the presence of high temperature (e.g. 287° C), high pH (e.g. 10.0 @ 20°C) water with dissolved hydrogen will oxidize and form corrosion films that are double metal oxides (or spinels) of the form AB 2 O 4. This work describes optical reflectivity techniques that have been developed to study the growth of these films in situ. The optical technique uses a dualbeam specular reflection spectrometer to measure the spectrum of reflected light in small angle (i.e. < 15°) scatter. The reflection spectra are then calibrated using a set of corrosion coupons with corrosion films that are well known. Results are compared with models based on multilayer reflection and Mie scattering from a particle size distribution. Surface roughness is found to be the dominant cause of reduced reflection as the films grow.

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Roy A. Castelli

Immiscibility in the Fe3O4–FeCr2O4 spinel binary

Thermodynamics of Cr2O3, FeCr2O4, ZnCr2O4, and CoCr2O4

Magnetic contribution to heat capacity and entropy of nickel ferrite (NiFe2O4)

Immiscibility in the Fe3O4-FeCr2O4 Spinel Binary

Optical reflection spectroscopy of thick corrosion layers on 304 stainless steel

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