The Mechanical Behavior Analysis of CFCC with Overall Anisotropic Damage by the Micro-Macro Scale Method

Abstract: In this paper, a micro-macromechanical approach is used to establish the macroscopic constitutive model with anisotropic damage in continuous fiber reinforced ceramic matrix composites (CFCC). For microlevel analysis of unit cell, the homogenization method based on double-scale asymptotic expansion is used to derive the material properties of composites. The macrolevel analysis is conducted to compute the macrostresses and strains with anisotropic damage. The two analyses are conducted by using Finite Element … Show more

“…Actually, it is promising to predict material strength by constructing damage-based failure criterion, since the damage evolution laws have already been obtained. Nevertheless, only a few damage-based failure conditions had appeared in the past years [11,[18][19][20][21]. And, they are impossible to form a unified theoretical system to facilitate applications.…”

Damage-based failure theory and its application to 2D-C/SiC composites

“…Actually, it is promising to predict material strength by constructing damage-based failure criterion, since the damage evolution laws have already been obtained. Nevertheless, only a few damage-based failure conditions had appeared in the past years [11,[18][19][20][21]. And, they are impossible to form a unified theoretical system to facilitate applications.…”

Damage-based failure theory and its application to 2D-C/SiC composites

“…Such "micro-mechanically-inspired" damage models involving scalar, tensor, or "Fabric tensor" representations of damage have been introduced in the study of heterogeneous materials containing voids or various crack-like surface discontinuities [19,20,21,22,23,24].…”

Scalar, vectorial, and tensorial damage parameters from the mesoscopic background

Using finite element analysis to understand the mechanical properties of ceramic matrix composites