A nonwoven fabric has been widely used in geotextile engineering in recent years; its tensile strength is an important behaviour. Since the fibre distributions in nonwoven fabrics are random and discontinuous, the unit-cell model of a nonwoven fabric cannot be developed to simulate its tensile behaviour. This article presents our research on using finite element method (FEM) to study the tensile behaviour of a nonwoven fabric in macro-scale based on the classical laminate composite theory. The laminate orientation was considered with orientation distribution function of fibres, which has been obtained by analysing the data acquired from scanning electron microscopy with Hough Transform. The FE model of a nonwoven fabric was developed using ABAQUS software; the required engineering constants of a nonwoven fabric were obtained from experimental data. Finally, the nonwoven specimens were stretched along with machine direction and cross direction. The experimental stress-strain curves were compared with the results of FE simulations. The approximate agreement proves the validity of an FE model, which could be used to precisely simulate the stress relaxation, strain creep, bending and shear property of a nonwoven fabric.

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tensile behaviour hough abaqus laminate orientation scanning electron microscopy finite element method fem fibre distributions simulations nonwoven fabrics geotextile engineering unitcell model orientation distribution function of fibres stress relaxation strain creep bending and shear property stressstrain curves

Wang Liping,Gao Xiaoping,.Finite Element Modelling for Tensile Behaviour of Thermally Bonded Nonwoven Fabric. 15 (1),.

Wang Liping,Gao Xiaoping,"Finite Element Modelling for Tensile Behaviour of Thermally Bonded Nonwoven Fabric" 15

Wang Liping,Gao Xiaoping,"Finite Element Modelling for Tensile Behaviour of Thermally Bonded Nonwoven Fabric"