Erosion behaviour of B4C-based ceramic composites |
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Authors: | Changxia Liu Junlong Sun |
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Affiliation: | Key Laboratory of Advanced Manufacturing and Automation Technology, Ludong University, Yantai 264025, Shandong Province, PR China |
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Abstract: | In this paper, TiO2 was introduced into boron carbide and B4C-based ceramic composites were obtained by uniaxial hot pressing. The mechanical properties, relative density and erosion behaviour of B4C-based ceramic composites were investigated. X-ray analysis showed that the fabricated composites were composed of B4C, TiB2 and C phases. SEM technique was employed to observe the original polished surfaces and the eroded surfaces of B4C-based ceramic composites. The effect of impingement angle, impact velocity of SiC erodent particle, relative density and phase ratio on the erosion rate of B4C-based ceramic composites was determined. It was found that the erosion rate of B4C-based ceramic composites increased with increasing of impingement angle and erodent particle velocity. The relative density and phase ratio influenced the erosion rate of B4C-based ceramic composites significantly by influencing their mechanical properties. |
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Keywords: | A. Hot pressing B4C TiB2 Erosion behaviour Microstructures |
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