Abstract A new ablation condition was designed to investigate the effect of temperature gradient on the ablation and flexural behavior of the C/C-ZrC composites. The sample not only suffers the… Click to show full abstract
Abstract A new ablation condition was designed to investigate the effect of temperature gradient on the ablation and flexural behavior of the C/C-ZrC composites. The sample not only suffers the gradient temperature ablation ranging from 1000 to 2000 ℃ but withstands flexural load caused by the high-speed airflow scouring. The volume ablation rate of the C/C-ZrC was 0.06 mm3/s, which was only 6.81 % of the rate of the C/C. The volume change caused by ZrC→ZrO2 together with the ZrO2 crystalline transformation was beneficial for releasing internal stress, thereby contributing to the higher flexural strength retention of the C/C-ZrC composites.
               
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