Microstructure, corrosion and mechanical properties characterization of AISI type 316L(N) stainless steel and modified 9Cr-1Mo steel after 40,000 h of dynamic sodium exposure at 525 °C

This paper presents results of a comprehensive study on 316L(N) stainless steel (SS) and modified 9Cr-1Mo steel exposed to flowing sodium at 525 °C for 40,000 h in a bi-metallic (BIM) loop. A non-uniform ferrite layer of 8–14 μm thickness was formed on the surface of 316L(N) SS due to elemental leac...

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Bibliographic Details
Published in:Journal of nuclear materials 2019-04, Vol.516, p.84-99
Main Authors: Bharasi, N. Sivai, Pujar, M.G., Das, C.R., Philip, John, Thyagarajan, K., Paneerselvi, S., Moitra, A., Chandramouli, S., Karki, Vijay, Kannan, S.
Format: Article
Language:English
Subjects:
Bi-metallic sodium loop
Carbon
Carbon content
Carburization
Carburization (corrosion)
Charge density
Chromium
Chromium molybdenum steels
Diffusion coefficient
Elongation
Exposure
Laves phase
Leaching
Mechanical properties
Microstructure
Modified 9Cr-1Mo steel
Precipitates
Sigma phase
Sodium
Stainless steel
Stainless steels
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Summary:This paper presents results of a comprehensive study on 316L(N) stainless steel (SS) and modified 9Cr-1Mo steel exposed to flowing sodium at 525 °C for 40,000 h in a bi-metallic (BIM) loop. A non-uniform ferrite layer of 8–14 μm thickness was formed on the surface of 316L(N) SS due to elemental leaching of Ni and Cr. Higher carbon activity (aC) in sodium resulted in carburization of 316L(N) SS with a surface carbon content of 0.5 wt.%. The effective carbon diffusion coefficient, DeffC was estimated to be 3.64 × 10 −19 m2/s. Consequent to carbon transport in 316L(N) SS, extensive sensitization was detected and the charge density, Pa, values for sodium exposed, thermally aged and carburized zone were found to be 23.3, 18.5 and 4.8 C/cm2, respectively. 42 and 60% decrease in percent total elongation (%TE) and percent reduction in area (%RA), respectively were observed in sodium-exposed 316L(N) SS, as compared to thermally aged specimen, due to surface carburization. Unlike 316L(N) SS, modified 9Cr-1Mo steel did not show carburization, however, it showed a decrease in the impact energy values due to the presence of Laves phase and M23C6 precipitates in sodium-exposed and thermally aged specimens. Elemental mapping of the 40,000 h thermally aged modified 9Cr-1Mo steel specimen showing (a) Laves phase, (b) Cr, (c) Mo and (d) Fe rich areas. [Display omitted] •Properties of 316L(N) SS and modified 9Cr-1Mo steel after Na exposure were studied.•Non-uniform ferrite layer of 8–14 μm thickness was formed on 316L(N) SS.•Higher carbon activity in sodium resulted in carburization of 316L(N) SS.•The effective carbon diffusion coefficient DeffC was estimated as 3.64 × 1019 m2/s.•Unlike 316L(N), modified 9Cr-1Mo steel did not show carburization.
ISSN:0022-3115
1873-4820
DOI:10.1016/j.jnucmat.2019.01.012