Predictions of elastic property on 2.5D C/SiC composites based on numerical modeling and semi-analytical method
2015; Elsevier BV; Volume: 74; Linguagem: Inglês
10.1016/j.compositesb.2015.01.009
ISSN1879-1069
AutoresChen Liang-jia, Xuefeng Yao, Song Cen,
Tópico(s)Composite Material Mechanics
ResumoIn this paper, the predictions of elastic constants of 2.5D (three-dimension angle-interlock woven) continue carbon fiber reinforced silicon carbide (C/SiC) composites are studied by means of theoretical model and numerical simulation. A semi-analytical method expressing elastic constants in terms of microstructure geometrical parameters and constitute properties has been proposed. First, both the geometrical model of the 2.5D composite and the representative volume element (RVE) in both micro- and meso-scale are proposed. Second, the effective elastic properties of the RVE in 2.5D C/SiC composites are obtained using finite element method (FEM) simulation based on energy equivalent principle. Finally, the remedied spatial stiffness average (RSSA) method is proposed to obtain more accurate elastic constants using nine correction factor functions determined by FEM simulations, also the effects of geometrical variables on mechanical properties in 2.5D C/SiC composites are analyzed. These results will play an important role in designing advanced C/SiC composites.
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