Effect of the Mechanical Activation Time on the Density of Fine-Grained 90W–7Ni–3Fe Alloy Synthesized by Spark Plasma Sintering

Effect of the Mechanical Activation Time on the Density of Fine-Grained 90W–7Ni–3Fe Alloy Synthesized by Spark Plasma Sintering

The effect of the high-energy mechanical activation (HMA) time on the microstructure of heavy tungsten 90% W–7% Ni–3% Fe alloy (VNZh-90) and its solid-phase sintering kinetics was studied. Alloy specimens were manufactured by vacuum spark plasma sintering (SPS). It has been shown that the density of...

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Veröffentlicht in:Physics of metals and metallography 2023-10, Vol.124 (10), p.987-994
Hauptverfasser: Chuvil’deev, V. N., Nokhrin, A. V., Boldin, M. S., Lantsev, E. A., Sakharov, N. V.
Format: Artikel
Sprache:eng
Schlagworte:
Activated sintering
Alloys
Chemistry and Materials Science
Creep rate
Crystal lattices
Density
Diffusion
Diffusion rate
Ferrous alloys
Kinetics
Materials Science
Metallic Materials
Phase Transformations
Sintering
Solid phases
Spark plasma sintering
Specialty metals industry
Structure
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Zusammenfassung:The effect of the high-energy mechanical activation (HMA) time on the microstructure of heavy tungsten 90% W–7% Ni–3% Fe alloy (VNZh-90) and its solid-phase sintering kinetics was studied. Alloy specimens were manufactured by vacuum spark plasma sintering (SPS). It has been shown that the density of alloy VNZh-90 depends on the HMA time nonmonotonically with a minimum. It has been demonstrated that the kinetics of the SPS of mechanically activated nanopowders has a two-stage character; the sintering rate depends on the Coble creep rate and the diffusion rate of W atoms in the crystal lattice of the nickel based γ-phase.
ISSN:0031-918X
1555-6190
DOI:10.1134/S0031918X23601749