ZrB2-SiCw composites with different carbonaceous additives

Various carbonaceous phases have different impacts on the qualifications of ZrB2-SiCw based ceramics. In this research, 5 wt% of different forms of carbon, namely carbon nanoparticles, carbon fibers, graphite, and graphene, were added to ZrB2-25 vol% SiCw composites sintered by spark plasma under 40...

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Bibliographic Details
Published in:International journal of refractory metals & hard materials 2021-02, Vol.95, p.1
Main Authors: Nguyen, Van-Huy, Delbari, Seyed Ali, Asl, Mehdi Shahedi, Van Le, Quyet, Ahmadi, Zohre, Farvizi, Mohammad, Mohammadi, Mohsen, Shokouhimehr, Mohammadreza, Namini, Abbas Sabahi
Format: Article
Language:English
Subjects:
Additives
Boron carbide
Carbon
Carbon fibers
Composite materials
Diamond pyramid hardness
External pressure
Fracture toughness
Graphene
Microstructure
Morphology
Nanoparticles
Refractory materials
Theoretical density
Zirconium carbide
Zirconium compounds
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Summary:Various carbonaceous phases have different impacts on the qualifications of ZrB2-SiCw based ceramics. In this research, 5 wt% of different forms of carbon, namely carbon nanoparticles, carbon fibers, graphite, and graphene, were added to ZrB2-25 vol% SiCw composites sintered by spark plasma under 40 MPa at 1900 °C external pressure for 7 min. All samples approached their theoretical density regardless of the addition of carbon and its morphology. The microstructural and XRD evaluations revealed the in-situ synthesis of ZrC and B4C phases in carbon-doped specimens. The addition of carbonaceous reinforcements resulted in refined microstructure, as the finest texture was related to the sample doped with graphene. The highest Vickers hardness (21.9 GPa) was measured for the ceramic having no carbonaceous additive, while the lowest hardness (17.3 GPa) belonged to the composite doped with carbon nanoparticles. In contrary, adding carbon nanoparticles increased the fracture toughness, yielding an outstanding value of 7.1 MPa.m1/2.
ISSN:0263-4368
DOI:10.1016/j.ijrmhm.2020.105457