Hi
I've searched for FreeFEM and found https://wiki.scilab.org/FreeFem ...
but the wiki returns that the page no longer exist. Do you know of
another link?
Best regards,
Claus
On 27.01.2020 16:01, Heinz Nabielek wrote:
I would have no idea, if the report
"Finite Elements in Scilab: Solution of partial differential equations supported by
the FreeFEM toolbox"
is any help. Dr van Seggern is long retired from the Forschungszentrum Jülich.
Greetings
Heinz
FORSCHUNGSZENTRUM JÜLICH GmbH
Zentralinstitut für Angewandte Mathematik
D-52425 Jülich, Tel. (02461) 61-6402
Interner Bericht
Finite Elemente in Scilab:Das Lösen partieller Differentialgleichungen mit
Hilfe der FreeFEM-Toolbox
Rainer von Seggern
FZJ-ZAM-IB-2001-03
April 2001
On 27.01.2020, at 11:25, Claus Futtrup <cfutt...@gmail.com> wrote:
Dear fellow Scilabers
There are various initiatives and possibly demonstration projects for
implementing Finite Element algorithms and Analysis in Scilab. Please help me
by providing pointers.
What I'd like to simulate is the suspension of a loudspeaker (the cloth spider
which essentially centers the voice coil in the air gap), in particular I wish
to calculate a force-deflection curve.
In my particular case, I'd like to describe the spider as a collection of line
segments (straight lines as well as circular sections). This description
represents a cross section view of the spider. For proper modeling, this is an
axisymmetric model of the spider.
I have a simple description of what I'd like to do in Scilab, but done in a
software named Mecway. The PDF is 650 kb (4 pages). I am worried about
attaching such a document to the User Group here in general, but I can of
course send it on request. In Mecway the axisymmetric model is expanded into 3D
with hex8 elements (it looks like a basic cubic element). The force-function is
applied in 40 time steps. It looks like 40 x basic static analysis.
Please let me know what you think would be suitable for solving this problem.
Is there a suitable ATOMS library?
Best regards,
Claus
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