Finite element procedure for stress amplification factor recovering in a representative volume of composite materials
AUTOR(ES)
Plaisant Junior, Paulo Cesar, Bussamra, Flávio Luiz de Silva, Arakaki, Francisco Kioshi
FONTE
J. Aerosp. Technol. Manag.
DATA DE PUBLICAÇÃO
2011-12
RESUMO
Abstract Finite element models are proposed to the micromechanical analysis of a representative volume of composite materials. A detailed description of the meshes, boundary conditions, and loadings are presented. An illustrative application is given to evaluate stress amplification factors within a representative volume of the unidirectional carbon fiber composite plate. The results are discussed and compared to the numerical findings.
Documentos Relacionados
- Finite Element Analysis of Pilot’s Helmet Design Using Composite Materials for Military Aircraft
- Finite element-based model for crack propagation in polycrystalline materials
- Effect of Ceramic Thickness and Composite Bases on Stress Distribution of Inlays - A Finite Element Analysis
- Formulation of a rectangular finite element for a laminated composite plate with piezoelectric layers.
- Finite element validation on adhesive joint for composite fuselage model
