A ZrC-SiC/ZrC-LaB6/ZrC multilayer ablation resistance coating for SiC-coated carbon/carbon composites

Abstract

This work proposes a new multilayer coating system containing ZrC-SiC, ZrC-LaB6, ZrC layer with respectively different functions to protect the carbon/carbon (C/C) composites. The coating system overcame the poor oxidation resistance of ZrC coating and weak anti-scouring performance of modified ZrC coating, which could provide the protection for C/C composites through the whole ablation process. After ablation for 40s, the liner ablation rate of the multilayer coating was −2.89±0.23μm/s, decreased by 150.26%, 134.61% and 133.22% relative to the ZrC, ZrC-LaB6 and ZrC-SiC coating, respectively. The coating showed a weight gain, while all the other coatings lost weight after ablation. The good ablation resistance was mainly ascribed to different functions of these layers in the coating system. The ZrC-SiC layer provided oxidation protection during the initial ablation stage by forming a composite oxide of ZrO2-SiO2. In the intermediate stage, the ZrC-LaB6 layer promoted the formation of a stable scale containing (La0.1Zr0.9)O1.95. As the ablation going on, a compact scale containing (La0.1Zr0.9)O1.95 and La2Zr2O7 was formed, which further protected the composites. During ablation, the ZrC layer provided a foundation for the multilayer coating system against scouring.