Influence of infiltration temperature on the microstructure and oxidation behavior of SiC–ZrC ceramic coating on C/C composites prepared by reactive melt infiltration

Abstract: and SiO 2 , which covers the surface of the composites and retards the oxygen diffusion and the attack on the underlying C/C substrate. For SiC coated C/C composites, the large SiC particles formed on the surface of the composites are difficult to oxidize rapidly and so a continuous and dense SiO 2 layer cannot be formed in time to significantly hinder fast oxygen diffusion leading to the consequent severe oxidation of the C/C substrate.

“…Up to now, some efforts have been focused on introducing ZrB 2 or ZrC phase in SiC-based coating to further improve its oxidation resistance, which is mainly attributed to the formation of stable compound silicate glass [10,11]. Dong et al prepared the SiC-ZrC coated C/C composites by reactive melt infiltration, whose mass gained 5.9 wt.% after oxidation at 1550 • C for 5 h [12]. Zhou et al fabricated the ZrB 2 -SiC coating by vapor silicon infiltration process, which could protect C/C substrate for more than 40 h [13].…”

A SiC-ZrB2-ZrC coating toughened by electrophoretically-deposited SiC nanowires to protect C/C composites against thermal shock and oxidation

“…Up to now, some efforts have been focused on introducing ZrB 2 or ZrC phase in SiC-based coating to further improve its oxidation resistance, which is mainly attributed to the formation of stable compound silicate glass [10,11]. Dong et al prepared the SiC-ZrC coated C/C composites by reactive melt infiltration, whose mass gained 5.9 wt.% after oxidation at 1550 • C for 5 h [12]. Zhou et al fabricated the ZrB 2 -SiC coating by vapor silicon infiltration process, which could protect C/C substrate for more than 40 h [13].…”

A SiC-ZrB2-ZrC coating toughened by electrophoretically-deposited SiC nanowires to protect C/C composites against thermal shock and oxidation

“…UHTCs based on several carbides and borides, possess a combination of high melting points, good thermal shock resistance and superior ablation resistance. Especially, zirconium carbide (ZrC) with high melting temperature (3540 • C), relatively low density (6.7 g/cm 3 ) and good chemical inertness, has been regarded as one of the most promising UHTCs [9,10]. Meanwhile, it has been largely reported that the addition of SiC can effectively improve the oxidation resistance of C/C composites [11,12].…”

Ablation behaviour of C/C and C/C–ZrC–SiC composites with cone-shaped holes under an oxyacetylene flame

“…Carbon fiber reinforced carbon and silicon carbide composites (C/C-SiC) have gained widespread attention in aerospace structural systems [1] and advanced friction systems [2] due to their superior mechanical properties under normal and high temperatures [3][4][5], oxidation and ablation resistance [6,7], and good friction and wear characteristics [8,9]. Developments in these applications will place higher requirements on these materials, and there is a need to find effective ways to improve their properties.…”

Microstructure Characterization by X-Ray Computed Tomography of C/C-SiC Ceramic Composites Fabricated with Different Carbon Fiber Architectures