祝贺贾婷雅关于计及氧化和残余热应力影响的陶瓷基复合材料高温强度模型的论文“An analytical model for the high temperature fracture strength of SiC fiber reinforced ceramic matrix composites considering oxidation and residual thermal stresses”被 Composites Part A 接收 !

Details：Tingya Jia, Yong Deng*, Yi Hao, Xinran Gao, Chao Zhang, Tianbao Cheng, Weiguo Li, Gunjin Yun，An analytical model for the high temperature fracture strength of SiC fiber reinforced ceramic matrix composites considering oxidation and residual thermal stresses，Composites Part A, 2023, 173, 107668.

Link：https://doi.org/10.1016/j.compositesa.2023.107668

ABSTRACT

As a promising high temperature structural material, ceramic matrix composites have attracted much attention due to their excellent thermo-mechanical properties. The present work develops a physics-based temperature dependent analytical model of fracture strength at high temperature oxidation environment for SiC fiber rein forced ceramic matrix composites (SiCf/CMCS). The combined effects of temperature, strength of constituent material, high temperature oxidation and residual thermal stress on the fracture strength are included in the proposed model. It is verified by the reported experimental results and comparison with other models, and it shows better agreement. Moreover, the influencing factors analysis regarding the evolution of fracture strength with oxidation temperature and time, fiber content and Young’s modulus, and residual thermal stress are performed. This study contributes a reliable theoretical model for predicting high temperature fracture strength of SiCf/CMCS, and which is helpful for the mechanical property evaluation and property optimization under extreme environment.