A chromium carbide coating in-situ formed on C/C composites by the novel reactive wetting strategy to enhance oxidation resistance

A chromium carbide (Cr-C) coating in-situ formed on the C/C substrate is successfully prepared by a novel reactive wetting strategy. The interfacial microstructure and oxidation resistance of coated C/C composites are investigated in detail. The as-prepared coating mainly consists of Cr23C6 and Cr7C3, forming a tight joining with the C/C substrate. Compared to uncoated samples, the oxidation weight loss of coated C/C composites is sub-stantially reduced at high temperatures. Furthermore, the hardness of coated C/C composites is significantly increased, enhancing their ability to resist external damage. This reactive wetting strategy can also be used to prepare uniform coatings on C/C composites with complex grooved structure or large size. Surprisingly, coated C/C composites possess a low weight gain of 3.7% due to thin coating (< 10 mu m), which can maintain their advantage of low density.

Automated summary

By using a novel reactive wetting strategy, a chromium carbide (Cr-C) coating in-situ formed on the C/C substrate is successfully prepared. The coated C/C composites have a well-controlled interfacial microstructure and excellent oxidation resistance, resulting in reduced oxidation weight loss at high temperatures and increased ability to resist external damage.