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README.rst
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implicit (2D)
'''''''''''''
:Sources:
..
collapse
::
implicit_dynamic.cc (click to expand)
..
literalinclude
::
examples/c++/solid_mechanics_model/implicit/implicit_dynamic.cc
:language: c++
:lines:
20-
..
collapse
::
material_dynamic.dat (click to expand)
..
literalinclude
::
examples/c++/solid_mechanics_model/implicit/material_dynamic.dat
:language: text
:Location:
``examples/c++/solid_mechanics_model/``
`implicit
<https://gitlab.com/akantu/akantu/-/blob/master/examples/c++/solid_mechanics_model/implicit>
`_
In
``implicit``
, an example of a dynamic solution with an implicit time integration is shown.
The implicit scheme is selected using the
``_implicit_dynamic``
constant
::
model.initFull(_analysis_method = _implicit_dynamic);
This example consists of
a 3D beam of
:math:
`10\mathrm{m}\times1\mathrm{m}\times1\mathrm{m}`
blocked
on one side and is on a roller on the other side. A constant force of
:math:
`5\mathrm{kN}`
is applied in its middle.
:numref:
`fig-ex-implicit-dynamic`
presents the geometry of this case. The
material used is a fictitious linear elastic material with a density of
:math:
`1000 \mathrm{kg/m}^3`
, a Young's Modulus of
:math:
`120 \mathrm{MPa}`
and Poisson's ratio of
:math:
`0.3`
. These values
were chosen to simplify the analytical solution.
An approximation of the dynamic response of the middle point of the
beam is given by:
..
math
::
u\left(\frac{L}{2}, t\right)
\approxeq \frac{1}{\pi^4} \left(1 - cos\left(\pi^2 t\right) +
\frac{1}{81}\left(1 - cos\left(3^2 \pi^2 t\right)\right) +
\frac{1}{625}\left(1 - cos\left(5^2 \pi^2 t\right)\right)\right)
.. _fig-ex-implicit-dynamic:
..
figure
::
examples/c++/solid_mechanics_model/implicit/images/implicit_dynamic.svg
:align:
center
:width:
75%
Numerical setup.
..
\begin{figure}[!htb]
\centering
\includegraphics[scale=.6]{figures/implicit_dynamic}
\caption{Numerical setup}
\label{fig-smm-implicit:dynamic}
\end{figure}
:numref:
`fig-ex-implicit-dynamic_solution`
presents the deformed
beam at 3 different times during the simulation: time steps 0, 1000 and
2000.
.. _fig-ex-implicit-dynamic_solution:
..
figure
::
examples/c++/solid_mechanics_model/implicit/images/dynamic_analysis.png
:align:
center
:width:
50%
Deformed beam at three different times (displacement :math:`\times
10`).
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