Title of article
A multiplicative finite strain finite element framework for the modelling of semicrystalline polymers and polycarbonates
Author/Authors
Arif Masud، نويسنده ,
Issue Information
روزنامه با شماره پیاپی سال 2000
Pages
22
From page
1887
To page
1908
Abstract
This paper presents a phenomenological model for the simulation and analysis of stress-induced orientational
hardening in semicrystalline polymers and polycarbonates at nite strains. The notion of intermediate (local)
stress-free con guration is used to develop a set of constitutive equations, and its relation to the multiple
natural (stress-free) con gurations in the class of materials being considered here is discussed. A hyperelastic
stored energy function, written with respect to the intermediate stress-free con guration is presented to model
the nite elastic response. It is then combined with the J2-
ow theory to model the nite inelastic response.
The isochoric constraint during inelastic deformation is treated via an exact multiplicative decomposition
of the deformation gradient into volume-preserving and spherical parts. The numerical solution algorithm is
based on the use of operator splitting technique that results in a product formula algorithm with elastic-
predictor=inelastic-corrector components. Numerical results are presented to show the behaviour of the model.
Keywords
Polycarbonates , Polymers , nite strains , orientational hardening , nite elements
Journal title
International Journal for Numerical Methods in Engineering
Serial Year
2000
Journal title
International Journal for Numerical Methods in Engineering
Record number
424021
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