Characterization of Various Stainless Steels Containing Gadolinium as Thermal Neutron Absorbing and Shielding Materials

Developing next-generation thermal-neutron-shielding and -absorbing materials for the safe storage and transportation of spent nuclear fuel is a topic of active research in academia. Gadolinium (Gd) boasts superior neutron absorption capacity compared with other nuclei. Consequently, it has garnered...

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Published in:Metals (Basel ) 2024-01, Vol.14 (1), p.16
Main Authors: Oh, SeKwon, Ahn, Ji-Ho, Jung, Rockhoon, Kim, Hyun-Jong, Chu, Younghwan, Choi, Dae Hyun, Lee, Hyun, Jung, Hyun-Do
Format: Article
Language:English
Subjects:
Alloys
Austenitic stainless steels
Boron
Composite materials
Corrosion and anti-corrosives
Corrosion resistance
Corrosion tests
Duplex stainless steels
Elongation
Gadolinium
Impact strength
Intermetallic compounds
Mechanical properties
Metal industry
microstructure
Neutron absorption
neutron-absorbing material
Neutrons
Nickel alloys
Nuclear energy
Nuclear industry
Radiation
Shielding
Spectrum analysis
Spent nuclear fuels
Spent reactor fuels
Stainless steel
Steel, Stainless
Thermal neutrons
Ultimate tensile strength
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Summary:Developing next-generation thermal-neutron-shielding and -absorbing materials for the safe storage and transportation of spent nuclear fuel is a topic of active research in academia. Gadolinium (Gd) boasts superior neutron absorption capacity compared with other nuclei. Consequently, it has garnered significant attention as a potential replacement for boron in spent nuclear fuel (SNF) applications. In this study, the austenitic stainless steels 304 and 316 and the duplex stainless steel 5A were reinforced with 2 wt.% of gadolinium to explore their thermal-neutron-absorbing efficiency. Their properties were then compared with commercial-grade borated stainless steel, as per ASTM standard A887. After the inclusion of Gd, both the yield strength and ultimate tensile strength of the alloys slightly increased, which was attributed to the evenly distributed Gd intermetallics within the matrix. However, the elongation rate was reduced. The Charpy impact absorption energy also decreased. The influence of the Gd intermetallic was further explored by examining the fractography. While the corrosion resistance of the alloy slightly diminished after the addition of Gd, its neutron absorption capacity demonstrated superior performance, especially when the Gd content was equivalent to that of boron. Although most properties of the experimental alloy deteriorated after the Gd addition, they still outperformed commercial borated stainless steel, suggesting that this alloy might be a promising candidate for SNF applications.
ISSN:2075-4701
2075-4701
DOI:10.3390/met14010016