Jianjie Hao scite author profile

SiC coatings reinforced with SiC nanowires were prepared on carbon/silicon carbide (C/SiC) composites through chemical vapor reaction route and chemical vapor deposition (CVD). The SiC nanowires were introduced to mainly improve the interface bonding properties of the coating and C/SiC composites. The microstructure, phase composition, thermal cycling, and bonding strength of the SiCnws-SiC coating were investigated. After nine thermal cycles, the weight loss of the SiCnws-SiC-coated C/SiC composites was only 4.6 wt.%. Tensile test results show that the tensile strength of the SiCnws-SiC-coated C/SiC composites was more than 4.5-4.6 MPa. The introduction of SiC nanowires effectively improved interface bonding strength, thus enhancing the thermal cycling and mechanical properties of the coating.

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Effect of phase composition on the oxidation resistance of ZrB2-SiC coatings

Hao

Zou

et al. 2022

Journal of the European Ceramic Society

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Changes in microstructure and mechanical properties of the carbon fiber and their effects on C/SiC composites

Hao

Shi

et al. 2022

Materials Characterization

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Effect of precoated carbon layer on microstructure and anti‐erosion properties of SiC coating for 2D‐C/C composites

Shi

Tan

Hao

et al. 2018

Int J Applied Ceramic Tech

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To improve the erosion resistant of carbon‐carbon composites, an SiC coating was synthesized on carbon‐carbon composites by the in situ reaction method. They are firstly coated with carbon layer by slurry, and then SiC coatings are obtained by chemical vapor reaction. The effects of precoated carbon layer on the microstructure and anti‐erosion properties of SiC‐coated C‐C composites were studied and characterized. The thickness of the SiC coating increased with the increase in the precoated carbon layer thickness. The different thickness of carbon layer affects hardness of the SiC coatings, resulting in diverse erosion resistance of the coatings. The SiC coating prepared with moderate thickness of precoated carbon layer exhibits the best erosion resistance, and show better resistance at an impact angle of 30° than 90°. The eroded surface revealed that coating cracking and brittle fracture, fiber‐matrix debonding, fiber breakage, and material removal, and the additional microcutting and microploughing at oblique impact angle are the major erosion mechanism of SiC coating for C/C composites.

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Jianjie Hao

Microstructure and anti-erosion property of SiC coated 2D C/C composites by chemical vapor reaction

Oxidation resistance and thermal cycling properties of the SiCnws–SiC coating on the C/SiC composites

Effect of phase composition on the oxidation resistance of ZrB2-SiC coatings

Changes in microstructure and mechanical properties of the carbon fiber and their effects on C/SiC composites

Effect of precoated carbon layer on microstructure and anti‐erosion properties of SiC coating for 2D‐C/C composites

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