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| Naji, M. |
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| Motta, Antonella |
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| Mohamed, Tarek |
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| Azevedo, Nuno Monteiro |
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| Landes, Michael |
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Tsepeleva, Alisa
University of Chemistry and Technology
in Cooperation with on an Cooperation-Score of 37%
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Publications (7/7 displayed)
- 2024Liquid plasma spraying of NiO-YSZ anode layers applicable for SOFCcitations
- 2023Aluminum alloys with natural ratio of alloying elements manufactured by powder metallurgycitations
- 2023Processing of Niobium-Alloyed High-Carbon Tool Steel via Additive Manufacturing and Modern Powder Metallurgycitations
- 2023Use of rapid solidification in processing of aluminum alloys with reduced deep-sea nodulescitations
- 2022Heat Treatment of Aluminum Alloys with the Natural Combination of Dopantscitations
- 2022Cast and Rapidly Solidified Aluminium Alloy with the Addition of Deep-Sea Nodules
- 2021Corrosion Properties of Mn-Based Alloys Obtained by Aluminothermic Reduction of Deep-Sea Nodulescitations
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article
Liquid plasma spraying of NiO-YSZ anode layers applicable for SOFC
Abstract
Plasma spraying (PS) from liquid feedstocks is a promising alternative for fabricating the NiO-YSZ anodes for Solid Oxide Fuel Cell (SOFC). However, despite the inherent advantages of the PS process, the plasma sprayed anodes are still inferior to the conventional ones prepared by wet-ceramic techniques due to the difficulty of achieving the optimal porosity level. This study shows that due to recent development, the NiO-YSZ anode layers with desirable porosity and microstructure can now be effectively fabricated in a one-step process using PS equipment with a water-argon stabilized plasma torch. As a liquid feedstock, we utilized Ni nitrate (hexahydrate) solutions and YSZ suspensions with different ratios, using ethanol or water as solvents. We show that the ethanol-based feedstock provides a favorable microstructure and porosity of the resulted layers over the water-based one. In addition, apart from NiO and YSZ phases, the layers deposited with ethanol solvent contained even metallic Ni. Different ratios of Ni nitrate to YSZ in ethanol-based feedstocks greatly affected the layer’s characteristics; when the content of Ni nitrate was high, the resulting layers had a non-uniform morphology with a very porous microstructure. On the contrary, the equal contents of Ni nitrate and YSZ in the feedstock resulted in the most optimal layer's microstructure, chemical composition, and thus sufficient electrical resistance, making such material potentially useful as anode for SOFC.