Artículo
Damage-driven strain localisation in networks of fibres: A computational homogenisation approach
Rocha, Felipe Figueredo; Blanco, Pablo Javier; Sánchez, Pablo Javier
; De Souza Neto, Eduardo Alberto; Feijóo, Raúl Antonino
Fecha de publicación:
10/2021
Editorial:
Pergamon-Elsevier Science Ltd
Revista:
Computers & Structures
ISSN:
0045-7949
Idioma:
Inglés
Tipo de recurso:
Artículo publicado
Clasificación temática:
Resumen
In many applications, such as textiles, fibreglass, paper and several kinds of biological fibrous tissues, the main load-bearing constituents at the micro-scale are arranged as a fibre network. In these materials, rupture is usually driven by micro-mechanical failure mechanisms, and strain localisation due to progressive damage evolution in the fibres is the main cause of macro-scale instability. We propose a strain-driven computational homogenisation formulationbased on Representative Volume Element (RVE), within a framework in which micro-scale fibre damage can lead to macro-scale localisation phenomena. The mechanical stiffness considered here for the fibrous structure system is due to: i) an intra-fibre mechanism in which each fibre is axially stretched, and as a result, it can suffer damage; ii) an inter-fibre mechanism in which the stiffness results from the variation of the relative angle between pairs of fibres. The homogenised tangent tensor, which comes from the contribution of these two mechanisms, is required to detect the so-called bifurcation point at the macro-scale, through the spectral analysis of the acoustic tensor. This analysis can precisely determine the instant at which the macro-scale problem becomes ill-posed. At such a point, the spectral analysis provides information about the macro-scale failure pattern (unit normal and crack-opening vectors). Special attention is devoted to present the theoretical fundamentals rigorously in the light of variational formulations for multi-scale models. Also, the impact of a recent derived more general boundary condition for fibre networks is assessed in the context of materials undergoing softening. Numerical examples showing the suitability of the present methodology are also shown and discussed.
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Articulos(CIMEC)
Articulos de CENTRO DE INVESTIGACION DE METODOS COMPUTACIONALES
Articulos de CENTRO DE INVESTIGACION DE METODOS COMPUTACIONALES
Citación
Rocha, Felipe Figueredo; Blanco, Pablo Javier; Sánchez, Pablo Javier; De Souza Neto, Eduardo Alberto; Feijóo, Raúl Antonino; Damage-driven strain localisation in networks of fibres: A computational homogenisation approach; Pergamon-Elsevier Science Ltd; Computers & Structures; 255; 106635; 10-2021; 1-28
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