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FEDOROVA, S.
Original Title
Computational modelling of fibre-reinforced hyperelastic solids with fibre bending stiffness
Type
abstract
Language
English
Original Abstract
In the paper, the hyperelastic material reinforced by steel fibres is considered. Conventional anisotropic constitutive models include the reinforcing effect of tension stiffness of fibres, but neglect their bending stiffness. We, however, consider the case when the size, material properties and structure of fibres do not allow to assume their perfect flexibility. An appropriate strain energy function is proposed following the approach of Spencer and Soldatos (A.J.M. Spencer, K.P. Soldatos: Finite deformations of fibre-reinforced elastic solid withfibre bending stiffness. Int. J. Nonlinear Mech., 42 (2007)). It takes hyperelasticity and anisotropy of the material, including bending stiffness of fibres, into account. The constitutive model employs curvature of fibres and is based on the constrained Cosserat theory. It means that strain energy includes couple stresses and derivatives of rotation in addition to common stresses and strains. Due to the constrained theory, rotations are not independent variables but derived from displacements. This approach leads to second derivatives of displacements occurring in finite element formulations. To ensure continuity of the derivatives in nodes of the mesh Hermite polynomial elements are employed and a new finite element code is proposed.
Keywords
hyperelasticity, anisotropy, fibre composite, Cosserat continuum, finite element method
Authors
Released
1. 7. 2013
Location
Brno
ISBN
978-80-214-4739-4
Pages from
61
Pages to
Pages count
1
BibTex
@misc{BUT101493, author="Tomáš {Lasota} and Svitlana {Fedorova} and Jiří {Burša}", title="Computational modelling of fibre-reinforced hyperelastic solids with fibre bending stiffness", year="2013", pages="61--61", address="Brno", isbn="978-80-214-4739-4", note="abstract" }