Journal
JOURNAL OF NUCLEAR MATERIALS
Volume 549, Issue -, Pages -Publisher
ELSEVIER
DOI: 10.1016/j.jnucmat.2021.152907
Keywords
Eurofer 97; Infrared emissivity; Low-activation materials; Heat transfer; Ferritic-martensitic steels
Funding
- Basque Government [PRE-2019-2-0191, POS-20201-0045]
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It was found that there is a semi-quantitative agreement between the measured spectral directional emissivity data of Eurofer 97 and the predicted values, despite significant differences in resistivity. Additionally, the emissivity data for the polished surface was comparable to Grade 91 steel and slightly lower than the values typically assumed in thermal budget modeling.
The spectral directional emissivity of Eurofer 97 is reported between 423 and 873 K for two surface states. Total hemispherical data has been calculated by numerical integration of the measured data and compared to the theoretical predictions based on electrical resistivity data. A semi-quantitative agreement between measured emissivity data and predicted values for Eurofer 97 and similar steels (Grade 91, F82H) has been found, despite larger differences in their resistivities. The reported values for the polished surface are shown to be comparable to data for Grade 91 steel and lower than the usually assumed ones in thermal budget modelling of the DEMO tokamak and other nuclear applications of this alloy. (c) 2021 Elsevier B.V. All rights reserved.
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