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AbstractAbstract
[en] Types 304L, 316L, and 321 austenitic stainless steel and Incoloy 825 are being considered as candidate container materials for emplacing high-level waste in a tuff repository. The stress corrosion cracking susceptibility of these materials under simulated tuff repository conditions was evaluated by using the notched C-ring method. The tests were conducted in boiling synthetic groundwater as well as in the steam/air phase above the boiling solutions. All specimens were in contact with crushed Topopah Spring tuff. The investigation showed that microcracks are frequently observed after testing as a result of stress corrosion cracking or intergranular attack. Results showing changes in water chemistry during test are also presented
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Jun 1986; 84 p; BNL-NUREG--51996; Available from NTIS, PC A05/MF A01 - GPO as TI86013148
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Report
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Numerical Data
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ALLOYS, ALUMINIUM ADDITIONS, AUSTENITIC STEELS, CARBON ADDITIONS, CHEMICAL REACTIONS, CHROMIUM ALLOYS, CHROMIUM-NICKEL STEELS, COPPER ALLOYS, CORROSION, CORROSION RESISTANT ALLOYS, DATA, HEAT RESISTING ALLOYS, HIGH ALLOY STEELS, IGNEOUS ROCKS, INCOLOY ALLOYS, INFORMATION, IRON ALLOYS, IRON BASE ALLOYS, LOW CARBON-HIGH ALLOY STEELS, MATERIALS, MOLYBDENUM ALLOYS, NICKEL ALLOYS, NICKEL BASE ALLOYS, NUMERICAL DATA, RADIOACTIVE MATERIALS, RADIOACTIVE WASTES, ROCKS, STAINLESS STEELS, STEELS, TESTING, TITANIUM ADDITIONS, WASTES
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