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Fabrication, microstructure, and properties of SiC/Al4SiC4 multiphase ceramics via an in-situ formed liquid phase sintering

Junwen Liu, Xiaobing Zhou, Peter Tatarko, Yuan Qin, Lan Zhang, Hongjie Wang, Zhengren Huang, Qing Huang

2020Journal of Advanced Ceramics77 citationsDOIOpen Access PDF

Abstract

Abstract The SiC/Al 4 SiC 4 composites with the improved mechanical properties and thermal conductivity were fabricated by the in-situ reaction of polycarbosilane (PCS) and Al powders using spark plasma sintering. The addition of 5 wt% yttrium (Y) sintering additive was useful to obtain fully dense samples after sintering at a relatively low temperature of 1650 °C, due to the formation of a liquid phase during sintering. The average particle size of the in-situ formed SiC was ~300 nm. The fracture toughness (4.9 MP·m 1/2 ), Vickers hardness (16.3 GPa), and thermal conductivity (15.8 W/(m·K)) of the SiC/Al 4 SiC 4 composite sintered at 1650 °C were significantly higher than the hardness (13.2 GPa), fracture toughness (2.16 MPa·m 1/2 ), and thermal conductivity (7.8 W/(m·K)) of the monolithic Al 4 SiC 4 ceramics. The improved mechanical and thermal properties of the composites were attributed to the high density, fine grain size, as well as the optimized grain boundary structure of the SiC/Al 4 SiC 4 composites.

Topics & Concepts

Materials scienceSpark plasma sinteringSinteringMicrostructureFracture toughnessThermal conductivityComposite materialCeramicVickers hardness testYttriumGrain sizePhase (matter)MetallurgyOxideOrganic chemistryChemistryAdvanced ceramic materials synthesisAluminum Alloys Composites PropertiesMXene and MAX Phase Materials
Fabrication, microstructure, and properties of SiC/Al4SiC4 multiphase ceramics via an in-situ formed liquid phase sintering | Litcius