CORROSION BEHAVIOR OF REACTOR MATERIALS IN FLUORIDE SALT MIXTURES
Molten fluoride salts, because of their radiation stability and ability to contain both Th and U, offer important advantages as high-temperature fuel solutions for nuclear reactors and as media suitable for nuclear fuel processing. Both applications have stimulated experimental and theoretical studies of the corrosion processes by which molten salt mixtures attack potential reactor materials. Corrosion experiments with fluoride salts which were conducted in support of the Molten-Salt Reactor E xperiment and analytical methods employed to interpret corrosion and masstransfer behavior in this reactor system are discussed. The products of corrosion of metals by fluoride melts are soluble in the molten salt; accordingly passivation is precluded and corrosion depends directly on the thermodynamic driving force of the corrosion reactions. Compatibility of the container metal and molten salt, therefore, demands the selection of salt constituents which are not appreciably reduced by useful structural alloys and the development of container materials whose components are in near thermodynamic equilibrium with the salt medium. Utilizing information gained in corrosion testing of commercial alloys and in fundamental interpretations of the corrosion process, an alloy development program was conducted to provide a high temperature container material that combined corrosion resistance with useful mechanical properties. The program culminated in the selection of a high-strength Nibase alloy containing 17% Mo, 7% Cr, and 5% Fe. The results of several long-term corrosion loops and in-pile capsule tests completed with this alloy are reviewed to demonstrate the excellent corrosion resistance of this alloy composition to fluoride salt mixtures at high temperatures. Methods based on thermodynamic properties of the alloy container and fused salt are presented for predicting corrosion rates in these systems. The results of radiotracer studies conducted to demonstrate the proposed corrosion model also are discussed. (auth)
- Research Organization:
- Oak Ridge National Lab. (ORNL), Oak Ridge, TN (United States)
- DOE Contract Number:
- W-7405-ENG-26
- NSA Number:
- NSA-16-032080
- OSTI ID:
- 4774669
- Report Number(s):
- ORNL-TM-328
- Resource Relation:
- Other Information: Orig. Receipt Date: 31-DEC-62
- Country of Publication:
- United States
- Language:
- English
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Related Subjects
ALLOYS
CHEMICAL REACTIONS
CHROMIUM ALLOYS
CORROSION
DIFFUSION
FLUORIDES
FUEL SOLUTIONS
FUSED SALTS
HIGH TEMPERATURE
IN PILE LOOPS
IRON ALLOYS
MATERIALS TESTING
MECHANICAL PROPERTIES
MECHANICAL STRUCTURES
METALS
MOLYBDENUM ALLOYS
NICKEL ALLOYS
PIPES
RADIATIONS
STABILITY
TENSILE PROPERTIES
THERMODYNAMICS
THORIUM
TRACER TECHNIQUES
URANIUM
USES
VESSELS