Effect of tungsten doping on the irradiation resistance of FeCrV-based refractory medium entropy alloy for potential nuclear applications
Given the increasing demand for energy and the rising cost of fossil fuels, the development of nuclear fission and fusion reactors has become a key priority. Recently, High Entropy Alloys (HEAs) and Medium Entropy Alloys (MEAs) have emerged as promising materials for use in nuclear reactors due to t...
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sg-ntu-dr.10356-1711862023-10-17T01:48:08Z Effect of tungsten doping on the irradiation resistance of FeCrV-based refractory medium entropy alloy for potential nuclear applications Hobhaydar, Arman Wang, Xiao Wang, Yangfan Li, Huijun Tran, Nam Van Zhu, Hongtao School of Materials Science and Engineering Engineering::Materials High Entropy Alloys Medium Entropy Alloy Given the increasing demand for energy and the rising cost of fossil fuels, the development of nuclear fission and fusion reactors has become a key priority. Recently, High Entropy Alloys (HEAs) and Medium Entropy Alloys (MEAs) have emerged as promising materials for use in nuclear reactors due to their unique properties, which include significant lattice distortion, high configurational entropy, reduced diffusivity, and the cocktail effect. In this study, we designed and analysed a series of FeCrV-based Refractory Medium-entropy Alloys (RMEAs) as structural materials in fusion reactors, using Density Functional Theory. By calculating the empirical parameters, we have verified the solid solution's structure stability of the FeCrV-based RMEA. We examined the mechanical, electronic, and irradiation resistance properties of these alloys and found that the incorporation of tungsten dopants could enhance both the mechanical properties and irradiation resistance of the materials, with the optimal doping level being approximately 8% of Tungsten. Furthermore, electronic structure calculations were performed to elucidate the underlying mechanisms. This knowledge can guide the development of new HEA/MEA materials for use in nuclear reactors. The authors would like to acknowledge the support from Australian Research Council Linkage Project- LP220200602. This research/project was undertaken with the assistance of resources and services from the National Computational Infrastructure (NCI), which is supported by the Australian Government. 2023-10-17T01:48:08Z 2023-10-17T01:48:08Z 2023 Journal Article Hobhaydar, A., Wang, X., Wang, Y., Li, H., Tran, N. V. & Zhu, H. (2023). Effect of tungsten doping on the irradiation resistance of FeCrV-based refractory medium entropy alloy for potential nuclear applications. Journal of Alloys and Compounds, 966, 171635-. https://dx.doi.org/10.1016/j.jallcom.2023.171635 0925-8388 https://hdl.handle.net/10356/171186 10.1016/j.jallcom.2023.171635 2-s2.0-85166920097 966 171635 en Journal of Alloys and Compounds © 2023 Elsevier B.V. All rights reserved. |
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Engineering::Materials High Entropy Alloys Medium Entropy Alloy Hobhaydar, Arman Wang, Xiao Wang, Yangfan Li, Huijun Tran, Nam Van Zhu, Hongtao Effect of tungsten doping on the irradiation resistance of FeCrV-based refractory medium entropy alloy for potential nuclear applications |
| description |
Given the increasing demand for energy and the rising cost of fossil fuels, the development of nuclear fission and fusion reactors has become a key priority. Recently, High Entropy Alloys (HEAs) and Medium Entropy Alloys (MEAs) have emerged as promising materials for use in nuclear reactors due to their unique properties, which include significant lattice distortion, high configurational entropy, reduced diffusivity, and the cocktail effect. In this study, we designed and analysed a series of FeCrV-based Refractory Medium-entropy Alloys (RMEAs) as structural materials in fusion reactors, using Density Functional Theory. By calculating the empirical parameters, we have verified the solid solution's structure stability of the FeCrV-based RMEA. We examined the mechanical, electronic, and irradiation resistance properties of these alloys and found that the incorporation of tungsten dopants could enhance both the mechanical properties and irradiation resistance of the materials, with the optimal doping level being approximately 8% of Tungsten. Furthermore, electronic structure calculations were performed to elucidate the underlying mechanisms. This knowledge can guide the development of new HEA/MEA materials for use in nuclear reactors. |
| author2 |
School of Materials Science and Engineering |
| author_facet |
School of Materials Science and Engineering Hobhaydar, Arman Wang, Xiao Wang, Yangfan Li, Huijun Tran, Nam Van Zhu, Hongtao |
| format |
Article |
| author |
Hobhaydar, Arman Wang, Xiao Wang, Yangfan Li, Huijun Tran, Nam Van Zhu, Hongtao |
| author_sort |
Hobhaydar, Arman |
| title |
Effect of tungsten doping on the irradiation resistance of FeCrV-based refractory medium entropy alloy for potential nuclear applications |
| title_short |
Effect of tungsten doping on the irradiation resistance of FeCrV-based refractory medium entropy alloy for potential nuclear applications |
| title_full |
Effect of tungsten doping on the irradiation resistance of FeCrV-based refractory medium entropy alloy for potential nuclear applications |
| title_fullStr |
Effect of tungsten doping on the irradiation resistance of FeCrV-based refractory medium entropy alloy for potential nuclear applications |
| title_full_unstemmed |
Effect of tungsten doping on the irradiation resistance of FeCrV-based refractory medium entropy alloy for potential nuclear applications |
| title_sort |
effect of tungsten doping on the irradiation resistance of fecrv-based refractory medium entropy alloy for potential nuclear applications |
| publishDate |
2023 |
| url |
https://hdl.handle.net/10356/171186 |
| _version_ |
1781793705926066176 |