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Microstructure and mechanical properties of WB <sub>2</sub> –B <sub>4</sub> C composites fabricated by boro/carbothermal reduction and SPS

Ying Long, Guihao Zhang, Shiming Lin, Hua‐Tay Lin

2022Journal of the American Ceramic Society14 citationsDOI

Abstract

Abstract The phase composition, microstructure, and mechanical properties of the WB 2 –B 4 C composites fabricated by a combination of boro/carbothermal reduction and spark plasma sintering (SPS) method with WO 3 , B 4 C, and graphite as raw materials were investigated in this study. The experimental results showed that the relative density of the as‐sintered WB 2 –B 4 C composites was ∼93.1% and ∼99.5%, respectively, after being SPS sintered at 1600°C under the applied load of 30 MPa for 10 min. Scanning electron microscope analysis showed that a network structure with WB 2 grains surrounded by B 4 C grains was observed after sintering. Analyses of high‐resolution TEM showed semi‐coherent interface and lattice distortion transition region between WB 2 and B 4 C grains. The Vickers hardness of WB 2 –B 4 C composite increased to 22.3 ± 0.9 GPa at 9.8 N owing to the fully dense, solid solution of C, and three‐dimensional network structure. Moreover, the fracture toughness and flexural strength of WB 2 –B 4 C composite reach 6.04 ± 0.81 MPa m 1/2 and 750 ± 80 MPa, respectively, which could be attributed to the semi‐coherent interface between WB 2 and B 4 C grains.

Topics & Concepts

MicrostructureMaterials scienceSpark plasma sinteringCarbothermic reactionComposite materialSinteringComposite numberFlexural strengthScanning electron microscopeFracture toughnessGraphiteVickers hardness testRelative densityCarbideAdvanced ceramic materials synthesisMXene and MAX Phase MaterialsAdvanced materials and composites
Microstructure and mechanical properties of WB <sub>2</sub> –B <sub>4</sub> C composites fabricated by boro/carbothermal reduction and SPS | Litcius