Abstract
The nuclear waste will be enclosed in corrosion resistant canisters. These will be deposited in repositories in geological formations, such as granite, basalt, clay, bedded or domed salt, or the sediments beneath the deep ocean floor. There the canisters will be exposed to groundwater, brine or seawater at an elevated temperature. Species formed by radiolysis may effect the corrosivity of the agent. The corrosion resistance of candidate canister materials is evaluated by corrosion tests and by thermodynamic and mass transport calculations. Examinations of ancient metal objects after long exposure in nature may give additional information. On the basis of the work carried out so far, the principal candidate canister materials are titanium materials, copper, and highpurity alumina.
Citation Formats
Mattson, E, Odoj, R, and Merz, E.
Canister materials proposed for final disposal of high level nuclear waste.
Germany: N. p.,
1981.
Web.
Mattson, E, Odoj, R, & Merz, E.
Canister materials proposed for final disposal of high level nuclear waste.
Germany.
Mattson, E, Odoj, R, and Merz, E.
1981.
"Canister materials proposed for final disposal of high level nuclear waste."
Germany.
@misc{etde_8421759,
title = {Canister materials proposed for final disposal of high level nuclear waste}
author = {Mattson, E, Odoj, R, and Merz, E}
abstractNote = {The nuclear waste will be enclosed in corrosion resistant canisters. These will be deposited in repositories in geological formations, such as granite, basalt, clay, bedded or domed salt, or the sediments beneath the deep ocean floor. There the canisters will be exposed to groundwater, brine or seawater at an elevated temperature. Species formed by radiolysis may effect the corrosivity of the agent. The corrosion resistance of candidate canister materials is evaluated by corrosion tests and by thermodynamic and mass transport calculations. Examinations of ancient metal objects after long exposure in nature may give additional information. On the basis of the work carried out so far, the principal candidate canister materials are titanium materials, copper, and highpurity alumina.}
place = {Germany}
year = {1981}
month = {Jun}
}
title = {Canister materials proposed for final disposal of high level nuclear waste}
author = {Mattson, E, Odoj, R, and Merz, E}
abstractNote = {The nuclear waste will be enclosed in corrosion resistant canisters. These will be deposited in repositories in geological formations, such as granite, basalt, clay, bedded or domed salt, or the sediments beneath the deep ocean floor. There the canisters will be exposed to groundwater, brine or seawater at an elevated temperature. Species formed by radiolysis may effect the corrosivity of the agent. The corrosion resistance of candidate canister materials is evaluated by corrosion tests and by thermodynamic and mass transport calculations. Examinations of ancient metal objects after long exposure in nature may give additional information. On the basis of the work carried out so far, the principal candidate canister materials are titanium materials, copper, and highpurity alumina.}
place = {Germany}
year = {1981}
month = {Jun}
}