Formation of the Structure and Phase Composition of Polycrystalline Diamond with Cobalt Infiltration in the System Diamond – Hard Alloy

Polycrystalline diamond composites (PCD) were obtained by cobalt infiltration from a hard-alloy substrate into a porous diamond layer at temperature 1600°C and pressure 6.0 GPa in a cubic hydrostatic-compression press. To improve the thermal stability of the composite the upper layer of the cobalt w...

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Bibliographic Details
Published in:Glass and ceramics 2019-03, Vol.75 (11-12), p.475-478
Main Authors: Anokhin, A. S., Strel’nikova, S. S., Andrianov, M. A., Tkachenko, V. V., Shipkov, A. N., Kukueva, E. V., Gol’dt, A. E., Zaremba, O. T.
Format: Article
Language:English
Subjects:
Alloys
Carbides
Ceramics
Characterization and Evaluation of Materials
Chemistry and Materials Science
Cobalt
Composites
Electron microscopy
Fluorides
Fluorine compounds
Glass
Grain boundaries
Hydrofluoric acid
Hydrostatic compression
Infiltration
Infiltration (Hydrology)
Materials Science
Microscopy
Nanostructure
Natural Materials
Phase composition
Polycrystalline diamond
Polycrystals
Science for Ceramic Production
Sintering
Sintering (powder metallurgy)
Specialty metals industry
Substrates
Surface layers
Thermal stability
Transmission electron microscopy
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Summary:Polycrystalline diamond composites (PCD) were obtained by cobalt infiltration from a hard-alloy substrate into a porous diamond layer at temperature 1600°C and pressure 6.0 GPa in a cubic hydrostatic-compression press. To improve the thermal stability of the composite the upper layer of the cobalt was etched by hydrofluoric acid to depth 150 μm. Transmission electron microscopy (TEM) was used to analyze the interaction at grain-binder and grain-grain boundaries. After cobalt infiltration a nanodiamond phase and a cubic cobalt-carbide phase CoC x are present on the grain-binder intergrain boundaries while after etching of the cobalt bulbous structures were found in the surface layer of the sintered polycrystalline diamond composite.
ISSN:0361-7610
1573-8515
DOI:10.1007/s10717-019-00115-4