Fate of corrosion products released from stainless steel in marine sediments and seawater. Part 4: Hatteras abyssal red clay
Description
A study in which neutron-activated 347 stainless steel was exposed to surficial sediment from a site in the Hatteras Abyssal Plain of the Northwest Atlantic Ocean is described. This sediment consists of approx. 20% CaCO/sub 3/, which could lead to the formation of calcareous scale on the metal surface and reduce the corrosion rate. The distribution of indigenous metals among different chemical fractions shows that extractable Cr, Mn, Fe, Co, and Zn were associated with amorphous Mn and Fe oxides. Most of the remaining extractable Cr, and about a third of the extractable Cu appear to have been weakly complexed. … continued below
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Schmidt, R. L. July 1, 1982.
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Pacific Northwest Laboratory
Place of Publication: Richland, Washington
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Description
A study in which neutron-activated 347 stainless steel was exposed to surficial sediment from a site in the Hatteras Abyssal Plain of the Northwest Atlantic Ocean is described. This sediment consists of approx. 20% CaCO/sub 3/, which could lead to the formation of calcareous scale on the metal surface and reduce the corrosion rate. The distribution of indigenous metals among different chemical fractions shows that extractable Cr, Mn, Fe, Co, and Zn were associated with amorphous Mn and Fe oxides. Most of the remaining extractable Cr, and about a third of the extractable Cu appear to have been weakly complexed. Major fractions (25 to 36%) of extractable Mn, Co and Ni were present as adsorbed cations. Organic complexation appears to account for a large amount of extractable Fe, Ni, Cu and Zn. Neutron-activated 347 stainless steel specimens were exposed to sediment slurry under aerobic and non-oxygenated conditions for a period of 94 days. The redox potential measurements for air-sparged and N/sub 2/, CO/sub 2/-sparged sediment slurries were +410 and +60 mv, respectively. The presence of 0/sub 2/ produced increased amounts of corrosion products. Chemical extraction showed that relatively labile substances constituted about 84% of the /sup 60/Co activity released in aerated sediment. Relatively labile substances constitute about 82% of the total /sup 60/Co activity released under non-oxygenated conditions. A large fraction of /sup 60/Co which was in the soluble or easily dissolved forms under non-oxygenated conditions appears to have been more strongly adsorbed to the sediment under aerated conditions.
Notes
NTIS, PC A03/MF A01.
Subjects
Keywords
- Alloys
- Atlantic Ocean
- Beta Decay Radioisotopes
- Beta-Minus Decay Radioisotopes
- Chalcogenides
- Chemical Radiation Effects
- Chemical Reactions
- Chemical State
- Chemistry
- Chromium
- Chromium Alloys
- Chromium Steels
- Chromium-Nickel Steels
- Clays
- Cobalt
- Cobalt 60
- Cobalt Isotopes
- Corrosion Products
- Corrosion Resistant Alloys
- Data
- Elements
- Environmental Transport
- Experimental Data
- Geochemistry
- Heat Resistant Materials
- Heat Resisting Alloys
- Hydrogen Compounds
- Information
- Intermediate Mass Nuclei
- Internal Conversion Radioisotopes
- Iron
- Iron Alloys
- Iron Base Alloys
- Iron Compounds
- Iron Oxides
- Isomeric Transition Isotopes
- Isotope Applications
- Isotopes
- Management
- Manganese
- Manganese Compounds
- Manganese Oxides
- Mass Transfer
- Materials
- Metals
- Minutes Living Radioisotopes
- Nickel
- Nickel Alloys
- Niobium Additions
- Niobium Alloys
- Nonmetals
- Nuclei
- Numerical Data
- Odd-Odd Nuclei
- Oxides
- Oxygen
- Oxygen Compounds
- Radiation Chemistry
- Radiation Effects
- Radioactivation
- Radioactive Waste Disposal
- Radioisotopes
- Radionuclide Migration
- Redox Reactions
- Seas
- Seawater
- Sediments
- Stainless Steel-347
- Stainless Steels
- Steels
- Surface Waters
- Tracer Techniques
- Transition Element Compounds
- Transition Elements
- Waste Disposal
- Waste Management
- Water
- Years Living Radioisotopes 520200* -- Environment, Aquatic-- Chemicals Monitoring & Transport-- (-1989)
- Zinc
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- Other: DE82019842
- Report No.: PNL-3466-Pt4
- Grant Number: AC06-76RL01830
- Digital Object Identifier: https://doi.org/10.2172/5106354
- Office of Scientific & Technical Information Report Number: 5106354
- Archival Resource Key: ark:/67531/metadc1061471
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- July 1, 1982
Added to The UNT Digital Library
- Jan. 22, 2018, 7:23 a.m.
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Schmidt, R. L. Fate of corrosion products released from stainless steel in marine sediments and seawater. Part 4: Hatteras abyssal red clay, report, July 1, 1982; Richland, Washington. (https://digital.library.unt.edu/ark:/67531/metadc1061471/: accessed July 18, 2024), University of North Texas Libraries, UNT Digital Library, https://digital.library.unt.edu; crediting UNT Libraries Government Documents Department.