Title of article
Meso-FE modelling of textile composites: Road map, data flow and algorithms
Author/Authors
Stepan V. Lomov، نويسنده , , Dmitry S. Ivanov، نويسنده , , Ignaas Verpoest، نويسنده , , Masaru Zako، نويسنده , , Tetsusei Kurashiki، نويسنده , , Hiroaki Nakai، نويسنده , , Satoru Hirosawa، نويسنده ,
Issue Information
روزنامه با شماره پیاپی سال 2007
Pages
22
From page
1870
To page
1891
Abstract
Meso-scale (unit cell of an impregnated textile reinforcement) finite element (FE) modelling of textile composites is a powerful tool for homogenisation of mechanical properties, study of stress–strain fields inside the unit cell, determination of damage initiation conditions and sites and simulation of damage development and associated deterioration of the homogenised mechanical properties of the composite. Meso-FE can be considered as a part of the micro-meso–macro multi-level modelling process, with micro-models (fibres in the matrix) providing material properties for homogenised impregnated yarns and fibrous plies, and macro-model (structural analysis) using results of meso-homogenisation. The paper discusses stages of the meso-FE analysis and proposes a succession of steps (“road map”) and the corresponding algorithms for it: (1) Building a model of internal geometry of the reinforcement; (2) Transferring the geometry into a volume description (“solid” CAD-model); (3) Preparation for meshing: correction of the interpenetration of volumes of yarns in the solid model and providing space for the thin matrix layers between the yarns; (4) Meshing; (5) Assigning local material properties of the impregnated yarns and the matrix; (6) Definition of the minimum possible unit cell using symmetry of the reinforcement and assigning periodic boundary conditions; (7) Homogenisation procedure; (8) Damage initiation criteria; (9) Damage propagation modelling. The “road map” is illustrated by examples of meso-FE analysis of woven and braided composites.
Keywords
Finite elements , Micro-mechanics , Multi-level analysis , Meso-modelling , Internal geometry , Textile composites
Journal title
COMPOSITES SCIENCE AND TECHNOLOGY
Serial Year
2007
Journal title
COMPOSITES SCIENCE AND TECHNOLOGY
Record number
1042759
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