Microwave synthesis and properties of fine-grained oxides dispersion strengthened tungsten

Microwave synthesis and properties of fine-grained oxides dispersion strengthened tungsten

Dense W, W–1wt%La2O3 and W–1wt%Y2O3 samples with fine microstructure were fabricated by microwave sintering method using nano-scaled powders. The FESEM and TEM analysis, thermal conductivity and Vickers micro-hardness measurements were exploited to characterize these samples. It is found that the ad...

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Veröffentlicht in:Journal of nuclear materials 2012-05, Vol.424 (1-3), p.171-175
Hauptverfasser: Liu, R., Zhou, Y., Hao, T., Zhang, T., Wang, X.P., Liu, C.S., Fang, Q.F.
Format: Artikel
Sprache:eng
Schlagworte:
Applied sciences
Controled nuclear fusion plants
Density
Diamond pyramid hardness
Dispersions
Energy
Energy. Thermal use of fuels
Exact sciences and technology
Fission nuclear power plants
Fuels
Heat transfer
Installations for energy generation and conversion: thermal and electrical energy
Nanocomposites
Nanomaterials
Nanostructure
Nuclear fuels
Thermal conductivity
Transmission electron microscopy
Tungsten
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Zusammenfassung:Dense W, W–1wt%La2O3 and W–1wt%Y2O3 samples with fine microstructure were fabricated by microwave sintering method using nano-scaled powders. The FESEM and TEM analysis, thermal conductivity and Vickers micro-hardness measurements were exploited to characterize these samples. It is found that the addition of Y2O3 and La2O3 nano-particles could significantly hinder the grain growth of tungsten in the consolidation process, decreasing the average grain size from 3.2μm in pure W down to 0.7μm in W–1%Y2O3 sample. The thermal conductivity and relative density of these samples are higher than 120W/mK and in the range of 95–97%, respectively. The Vickers hardness of W–1%Y2O3 sample reaches as high as 6.91GPa, 30% higher than that of pure W (5.04GPa).
ISSN:0022-3115
1873-4820
DOI:10.1016/j.jnucmat.2012.03.008