Preparation of integrated carbon fiber stitched fabric reinforced (SiBCN) ceramic/resin double-layered composites for ablation resistance, thermal insulation and compression resistance performance

• Published in: Composites science and technology Vol. 252; p. 110629
• Main Authors: Xia, Chunlei, Xie, Weihua, Meng, Songhe, Gao, Bo, Ye, Jinrui
• Format: Journal Article
• Language: English
• Published: Elsevier Ltd 16.06.2024
• Subjects: Heat treatment; High-temperature properties; Hybrid composites; Multifunctional properties; SEM; Hybrid composites; Heat treatment; Multifunctional properties; SEM; High-temperature properties
• ISSN: 0266-3538; 1879-1050
• DOI: 10.1016/j.compscitech.2024.110629

This paper reports a novel integrated carbon fiber fabric reinforced ceramic/resin double-layered composite. The composites were prepared by a low energy consumption process of stratified impregnate pyrolysis. The double-layered composites consist of an amorphous SiBCN ceramic upper layer and a SiBCN resin bottom layer. In the ablation experiment, the temperature of the composite material's ablated surface exceeded 1850 °C, while the temperature of the backside remained below 70 °C within 60 s of ablation. Even after 90 s of ablation, the backside temperature was still significantly lower than the theoretical application temperature of SiBCN resin. The ablated surface has no visible pits or cracks. The maximum mass ablation rate and line ablation rate were −0.01259 mg/s and 0.000933 mm/s, respectively. High-density amorphous SiBCN ceramic layer effectively play the role of high temperature and ablation resistance. In addition, the compressive strengths of the composites before and after ablation were above 340 MPa. Integrated composites that combine anti-ablation, insulation, and compression resistance have potential in aerospace applications. [Display omitted]