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Modeling of the process-induced stress, damage, microstructure, and deformation evolution during the pyrolysis process manufacturing CMCs

材料科学 微尺度化学 微观结构 收缩率 变形(气象学) 复合材料 陶瓷 陶瓷基复合材料 结构材料 残余应力 热解 极限抗拉强度 压力(语言学) 化学工程 工程类 数学教育 哲学 语言学 数学
作者
Qiang Liu,Suwan Ma,Zeshuai Yuan,Yuan Li,Xiaodong Gong,Junping Li,Man Zhu,Tianjian Lu
出处
期刊:Journal of Advanced Ceramics [Springer Science+Business Media]
卷期号:12 (12): 2345-2359 被引量:10
标识
DOI:10.26599/jac.2023.9220824
摘要

An insightful understanding of the formation mechanism of process-inherent defects and deformation is increasingly important for the property evaluation and structural design of ceramic matrix composites (CMCs). For this purpose, a coupled thermal–diffusive–mechanical modeling approach was proposed by considering three important phenomena that occurs during the pyrolysis process for manufacturing CMCs: variations of the physical and mechanical properties of the constituents, generation and diffusion of pyrolysis gas, and multiple thermal deformations. The synergistic effects of these three phenomena on the stress, damage development, microstructural morphology, and process deformation of SiC matrix composites were investigated using finite-element simulations. This new approach was validated by comparing the simulation and experimental results. Significant volume shrinkage of the matrix during the polymer-to-ceramic transformation resulted in large tensile stresses and subsequent highly fragmented microstructure in the CMCs. The pyrolysis-gas-induced expansion on the matrix under damage state may yield a positive process deformation of CMCs at the macroscale, overcoming the effects of the volume shrinkage of the bulk matrix at the microscale. The modeling approach is expected to guide high-quality manufacturing of CMCs and comprehensive studies of structure-processing-property relationships.
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