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Re: [Getfem-users] material law with non-symmetric stiffness
From: |
Yves Renard |
Subject: |
Re: [Getfem-users] material law with non-symmetric stiffness |
Date: |
Mon, 2 May 2011 14:44:54 +0200 |
User-agent: |
KMail/1.13.5 (Linux/2.6.32-31-server; KDE/4.4.5; x86_64; ; ) |
Dear Andriy,
Since grad_sigma should be the hessian of an elastic energy, it as to be
symmetric, at least in the hyperelastic framework. I am not a specialist of
orthotropic material, what is the difference is that case ? You mean that you
are not in an hyperelastic framework ?
The symmetry is assumed in assembly routines
(asm_nonlinear_elasticity_tangent_matrix use "M(#1,#1)+=sym(...)") for the
stiffness matrix.
Yves.
On lundi 2 mai 2011, Andriy Andreykiv wrote:
> Dear Getfem users,
>
> I would like to use a non-linear elasticity brick with my own material
> law that has non-symmetric stiffness matrix.
> It's non-symmetric if you write it with Voigt notations, but of
> course, two other "standard" symmetries of a full C_{ijkl} tensor are
> present (i-j symmetry and k-l symmetry).
> When I looked into getfem_nonlinear_elasticity.h I found a comment
> (next to virtual void grad_sigma declaration):
>
> "// the result of grad_sigma has to be completely symmetric."
>
> Does this comment imply the above mentioned two symmetries or it means
> that a non-symmetry that also reveals itself
> in material matrix, written in Voigt notations, is also not allowed?
> A simple example would be: Can I use a fully orthotropic material in
> non-linear elasticity brick?
> I browsed through the code of "getfem::nonlinear_elem_term " but it
> doesn't look like any symmetry is required.
> However, I would like to be sure.
>
> Thank you in advance,
> Andriy
>
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--
Yves Renard (address@hidden) tel : (33) 04.72.43.87.08
Pole de Mathematiques, INSA-Lyon fax : (33) 04.72.43.85.29
20, rue Albert Einstein
69621 Villeurbanne Cedex, FRANCE
http://math.univ-lyon1.fr/~renard
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