Properties of nanostructured diamond-silicon carbide composites sintered by high pressure infiltration technique

被引:0
|
作者
G. A. Voronin
T. W. Zerda
J. Gubicza
T. Ungár
S. N. Dub
机构
[1] Texas Christian University,Department of Physics and Astronomy
[2] Eötvös University,Department of Solid State Physics
[3] Eötvös University,Department of General Physics
[4] Institute for Superhard Materials of the NAS of Ukraune,undefined
来源
Journal of Materials Research | 2004年 / 19卷
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摘要
A high-pressure silicon infiltration technique was applied to sinter diamond–SiC composites with different diamond crystal sizes. Composite samples were sintered at pressure 8 GPa and temperature 2170 K. The structure of composites was studied by evaluating x-ray diffraction peak profiles using Fourier coefficients of ab initio theoretical size and straun profiles. The composite samples have pronounced nanocrystalline structure: the volume-weighted mean crystallite size is 41–106 nm for the diamond phase and 17–37 nm for the SiC phase. The decrease of diamond crystal size leads to increased dislocation density in the diamond phase, lowers average crystallite sizes in both phases, decreases composite hardness, and improves fracture toughness.
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页码:2703 / 2707
页数:4
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