Effects of annealing in Be/W and Be/C bilayers deposited on Si(001) substrates with Fe buffer layers

•Be/W, Be/C layers deposited by TVA on Si substrate with thin sputtered Fe buffers.•Fe films were hydrogenated (300°C); Be/W and Be/C were annealed in vacuum (600°C).•Increase of oxidation near the surface; the hydrogenation reduces oxidation.•The annealing induces high interatomic diffusion all ove...

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Bibliographic Details
Published in:Journal of nuclear materials 2015-02, Vol.457, p.220-226
Main Authors: Schinteie, G., Greculeasa, S.G., Palade, P., Lungu, G.A., Porosnicu, C., Jepu, I., Lungu, C.P., Filoti, G., Kuncser, V.
Format: Article
Language:English
Subjects:
Annealing
Atomic structure
Buffer layers
Case depth
Deposition
Devices
Iron
Oxides
X-ray photoelectron spectroscopy
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Summary:•Be/W, Be/C layers deposited by TVA on Si substrate with thin sputtered Fe buffers.•Fe films were hydrogenated (300°C); Be/W and Be/C were annealed in vacuum (600°C).•Increase of oxidation near the surface; the hydrogenation reduces oxidation.•The annealing induces high interatomic diffusion all over the structure.•Mixed phases are formed by annealing: Fe–Be, Fe–C; no Fe–W phases are evidenced. Atomic intermixing processes in relation to structural aspects and phase formation in Be based thin films subjected to different annealing treatments simulating the case of re-deposited layered structures on plasma facing components in nuclear fusion devices are reported. Accordingly, bilayers of Be/W and Be/C have been deposited on Si(001) substrates with Fe buffer layers. The Fe films have been prepared by radiofrequency sputtering and further processed by annealing in hydrogen atmosphere at 300°C, for 90min, at a pressure of 10 bars of H2. After the Be/W and Be/C bilayer deposition by means of thermionic vacuum arc method, annealing in vacuum at 600°C, for 10min has been applied to the complex structures. The influence of annealing on the phase composition and atomic intermixing processes in the complex structures has been studied by means of X-ray photoelectron spectroscopy (XPS) and conversion electron Mössbauer spectroscopy (CEMS). The layered structures present an oxidation gradient with oxide phases in the uppermost layers and non-oxidized phases in the lower layers, as observed from the XPS data. The CEMS results revealed that the as-deposited structures contain a main metallic Fe phase and secondary superparamagnetic Fe oxide phases at the Fe/Be interface, while annealed samples present a large contribution of Fe–Be and Fe–C mixtures. The annealing treatment induces considerable atomic interdiffusion, strongly dependent on the nature of the upper layer. In the case of Be/W system, the annealing provides a much rougher Be/W interface, while in case of the Be/C structure, the annealing treatment only homogenize the structure over the whole depth.
ISSN:0022-3115
1873-4820
DOI:10.1016/j.jnucmat.2014.11.029