Fast Reactors and Accelerator Driven Systems Knowledge Base
Conference Article: Corrosion of structural materials by lead based reactor coolants
D.P. Abraham, L. Leibowitz, V.A. Maroni, S.M. McDeavitt, A.G. RarazAbstract
Advanced nuclear reactor design has, in recent years, focused increasingly on the use of heavy-liquid-metal coolants, such as lead and lead-bismuth eutectic. Similarly, programs on accelerator-based transmutation systems have also considered the use of such coolants. Russian experience with heavy-metal coolants for nuclear reactors has lent credence to the validity of this approach. Of significant concern is the compatibility of structural materials with these coolants. We have used a thermal convection-based test method to allow exposure of candidate materials to molten lead and lead-bismuth flowing under a temperature gradient. The gradient was deemed essential in evaluating the behavior of the test materials in that should preferential dissolution of components of the test material occur we would expect dissolution in the hotter regions and deposition in the colder regions, thus promoting material transport. Results from the interactions of a Si-rich mild steel alloy, AISI S5, and a ferritic-martensitic stainless steel, HT-9, with the molten lead-bismuth are presented.
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key words: Fast Neutron Spectrum Systems, Nuclear Technology
- Reference:
- Proceedings of a Committee Meeting (TCM) on “Core Physics and Engineering Aspects of
Emerging Nuclear Energy Systems for Energy Generation and Transmutation” held in Argonne, Illinois, U.S.A., 28 November - 1 December 2000
- International Atomic Energy Agency, Vienna (Austria)
- IAEA-TECDOC--1356, pp:329-339
- International Atomic Energy Agency, Vienna (Austria)