Microstructure, mechanical, and thermal properties of in situ-synthesized (ZrB2+SiC)/Zr2[Al(Si)]4C5 composites

Microstructure, mechanical, and thermal properties of in situ-synthesized (ZrB2+SiC)/Zr2[Al(Si)]4C5 composites

Based on thermodynamic analysis, densified 30vol% (ZrB2+SiC)/Zr2[Al(Si)]4C5 composites were prepared by in situ hot pressing at 1850°C. The microstructure, mechanical, and thermal properties of the composites were characterized. As reinforcements, ZrB2 and SiC incorporated by in situ reaction signif...

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Veröffentlicht in:Ceramics international 2013-09, Vol.39 (7), p.8559-8563
Hauptverfasser: Guo, D.D., Yang, J., Yu, L., Pan, L.M., Qiu, T., Zhang, J.X.
Format: Artikel
Sprache:eng
Schlagworte:
(ZrB2+SiC)/Zr2[Al(Si)]4C5 composites
C. Mechanical properties
C. Thermal properties
Diamond pyramid hardness
Flexural strength
In situ synthesis
Microstructure
Modulus of rupture in bending
Particulate composites
Silicon carbide
Thermal conductivity
Thermal properties
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Zusammenfassung:Based on thermodynamic analysis, densified 30vol% (ZrB2+SiC)/Zr2[Al(Si)]4C5 composites were prepared by in situ hot pressing at 1850°C. The microstructure, mechanical, and thermal properties of the composites were characterized. As reinforcements, ZrB2 and SiC incorporated by in situ reaction significantly improved the mechanical and thermal properties of Z2[Al(Si)]4C5. Compared with monolithic Z2[Al(Si)]4C5, the composite showed superior Young's modulus (425GPa), room temperature flexural strength (621±33MPa), high-temperature flexural strength (404±13MPa, 1300°C, air), fracture toughness (7.85±0.29MPam1/2), and Vickers hardness (16.7±0.4GPa). The composite also exhibited a similar heat capacity to but significantly higher thermal conductivity than Z2[Al(Si)]4C5.
ISSN:0272-8842
1873-3956
DOI:10.1016/j.ceramint.2013.04.013