Microstructures and mechanical properties of B4C–SiC intergranular/intragranular nanocomposite ceramics fabricated from B4C, Si, and graphite powders

B4C–SiC intergranular/intragranular nanocomposites with high hardness and high toughness were fabricated through mechanochemical processing with B4C, Si, and graphite powders and subsequent hot pressing without any sintering aid. The milled powders are composed of stacking-disordered SiC and nanocry...

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Bibliographic Details
Published in:Journal of the European Ceramic Society 2014-09, Vol.34 (10), p.2153-2161
Main Authors: Zhang, Zhixiao, Du, Xianwu, Li, Zili, Wang, Weimin, Zhang, Jinyong, Fu, Zhengyi
Format: Article
Language:English
Subjects:
B4C–SiC nanocomposite
Disorder–order transformation
Intergranular/intragranular structure
Mechanochemical processing
Toughening mechanism
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Summary:B4C–SiC intergranular/intragranular nanocomposites with high hardness and high toughness were fabricated through mechanochemical processing with B4C, Si, and graphite powders and subsequent hot pressing without any sintering aid. The milled powders are composed of stacking-disordered SiC and nanocrystalline B4C. Most nano/micron-sized SiC particles are homogeneously dispersed in B4C matrix, and some nano-sized SiC and B4C particles are embedded into B4C grains to form an intergranular/intragranular structure. The disordered characteristic of the milled powders is the essential factor for the formation of the intragranular structure, sudden densification within the narrow temperature range (1700–1900°C), and the preparation of dense samples under a relatively low temperature (1900°C). The relative density, Vickers hardness, and fracture toughness of the samples sintered at 1950°C are 98.6%, 34.3GPa, and 6.0MPam1/2, respectively. The intergranular/intragranular structure plays an important role in improving fracture toughness and hardness of the composites.
ISSN:0955-2219
1873-619X
DOI:10.1016/j.jeurceramsoc.2014.02.032