Search Results - "Bryan, C.R."

Use of in situ Raman spectroelectrochemical technique to explore atmospheric corrosion in marine-relevant environments by Katona, R.M., Kelly, R.G., Bryan, C.R., Schaller, R.F., Knight, A.W.

“…[Display omitted] •In-situ Raman for simulated atmospheric environments.•Boundary layer control in Raman cell.•Solution regeneration needed to prevent oxygen…”
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The Long-Term Corrosion Performance of Alloy 22 in Heated Brine Solutions by Enos, D.G, Bryan, C.R.

“…Long-term corrosion experiments have been performed on Alloy 22 (UNS N06022), in a series of heated brines formulated to represent evaporatively concentrated…”
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Towards understanding stress corrosion cracking of austenitic stainless steels exposed to realistic sea salt brines by Katona, R.M., Taylor, J.M., McCready, T.A., Bryan, C.R., Schaller, R.F.

“…Stress corrosion cracking behavior of stainless steel 304 L was investigated in full immersion, evaporated artificial sea salt brines (ASW) at 55 °C. It was…”
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Physical and chemical properties of sea salt deliquescent brines as a function of temperature and relative humidity by Bryan, C.R., Knight, A.W., Katona, R.M., Sanchez, A.C., Schindelholz, E.J., Schaller, R.F.

“…Thermodynamic modeling has been used to predict chemical compositions of brines formed by the deliquescence of sea salt aerosols. Representative brines have…”
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Quantitative assessment of environmental phenomena on maximum pit size predictions in marine environments by Katona, R.M., Knight, A.W., Schindelholz, E.J., Bryan, C.R., Schaller, R.F., Kelly, R.G.

“…•Atmospheric maximum pit size predictions for NaCl, MgCl2, and seawater solutions.•Max pit size decrease with cathode precipitation and dehydration…”
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Importance of the hydrogen evolution reaction in magnesium chloride solutions on stainless steel by Katona, R.M., Carpenter, J.C., Knight, A.W., Bryan, C.R., Schaller, R.F., Kelly, R.G., Schindelholz, E.J.

“…•Cathodic kinetics on platinum and stainless steel 304 L in magnesium chloride.•Oxygen reduction reaction suppression on stainless steel 304 L.•Hydrogen…”
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Considerations for realistic atmospheric environments: An application to corrosion testing by Katona, R.M., Knight, A.W., Maguire, M., Bryan, C.R., Schaller, R.F.

“…Measured salt compositions in dust collected over roughly the last decade from surfaces of in-service stainless-steel alloys at four locations around the…”
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Overview of total system model used for the 2008 performance assessment for the proposed high-level radioactive waste repository at Yucca Mountain, Nevada by Hansen, C.W., Birkholzer, J.T., Blink, J., Bryan, C.R., Chen, Y., Gross, M.B., Hardin, E., Houseworth, J., Howard, R., Jarek, R., Lee, K.P., Lester, B., Mariner, P., Mattie, P.D., Mehta, S., Perry, F.V., Robinson, B., Sassani, D., Sevougian, S.D., Stein, J.S., Wasiolek, M.

“…A summary is presented for the total system model used to represent physical processes associated with the seven scenario classes (i.e., nominal conditions,…”
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UO 2 corrosion in an iron waste package by Ferriss, E.D.A., Helean, K.B., Bryan, C.R., Brady, P.V., Ewing, R.C.

“…In order to investigate the interactions between spent nuclear fuel, corroding iron waste packages, and water under conditions likely to be relevant at the…”
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UO2 corrosion in an iron waste package by FERRISS, E. D. A, HELEAN, K. B, BRYAN, C. R, BRADY, P. V, EWING, R. C

“…In order to investigate the interactions between spent nuclear fuel, corroding iron waste packages, and water under conditions likely to be relevant at the…”
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