Download Corrosion in the Nuclear Industry by Prepared by the Working Party on Nuclear Corrosion PDF

By Prepared by the Working Party on Nuclear Corrosion

This quantity specializes in 9 subject matters of relevance to the nuclear strength undefined. Chapters disguise: pressurised water reactors, boiling water reactors, gasoline parts, complicated fuel reactors, extreme temperature reactors, liquid steel quick breeders, fusion reactors, reprocessing and waste administration.
• entrance topic
• desk of Contents
• eu Federation of Corrosion - sequence advent
• creation
1. Corrosion in Pressurized Water Reactors
2. Corrosion difficulties in Boiling Water Reactors and their treatments
three. Zircaloy gas Cladding Corrosion Behaviour lower than gentle Water Reactor Operation and coincidence stipulations
four. The Oxidation of based Stainless Steels and gas Cladding within the complex Gas-Cooled Reactors
five. Corrosion Behaviour of metal fabrics within the Cooling fuel of extreme temperature Reactors
6. Corrosion in quickly Breeder Reactors
7. Corrosion difficulties in Nuclear Fusion Reactors
eight. Corrosion Resistance of steel fabrics to be used in Nuclear gasoline Reprocessing
nine. Corrosion features of packing containers for High-Level Waste Disposal

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A porous ferrite layer is developed and in some cases it is very weak and spalls either during exposure to the lithium lead eutectic (especially in FCL tests) o r during cleaning of the specimens. It is very difficult to remove the residual Pb-17Li from the corrosion samples. The different techniques adopted include dissolution in Li o r Hg or h’a+NH followed by washing in alcohol and water. d oxygen on the properties of Pb-17Li are concerned, j . t has been shown /32/ that while the former is absolutely inocuous, the latter is quite deleterious: it enhances the corrosion of AISI 316 and is able to extract Li from the eutectic alloy.

Nucl. Mat. 85&86 (1979), 249 14. Sasaki, J . Nucl. Mat. 85&86 (1979), 271 15. Yonco, J. Mat. for En. Syst. 2, March 1985, 5 16. Smith, J. of Nucl. Mat. 133&134 (1985), 861 17. F. Tortorelli, Personal Communication, work to be published in J. of Nucl. Mat. 18. 6 19. A. Casteels, J. Deschutter, FT/Mol/T86-04 20. Chopra, J. Nucl. Mat. 115 (1983), 223 21. U. Borgstedt, KFK 3819, Oct. 1984 22. Kolbe, T. Rued1, J. of Nucl. Mat. 85886 (1979), 277 23. Kolbe, T. Sasaki, J. of Nucl. Mat. 103&104 (1981), 689 24.

Orecchia, to be published in J. of Nucl. Mat. 36. Saunier, Personal Communication, work to be published in J . of Nucl. Mat. 37. Sano, J. Nucl. Mat. 80 (1979), 8. G. A. R. Moore, Material Behaviour & Physical Chemistry in Liq. Metal Systems, Ed. U. Y. 113 9. E. Ruedl, V. Kolbe, J. Nucl. Mat. 110 (1982), 28 10. E. Ruedl, T. Sasaki, J. Nucl. Mat. 116 (19831, 112 11. E. Ruedl, V. Kolbe, J. Nucl. Mat. 123, Nosl-3, May 1984, 1247 12. Smith, to be published in J. Nucl. Mat. 13. Devan, J. Nucl. Mat. 85&86 (1979), 249 14.

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