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dynamics.py
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Created
Tue, Nov 19, 08:30
Size
3 KB
Mime Type
text/x-python
Expires
Thu, Nov 21, 08:30 (2 d)
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blob
Format
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Handle
22254868
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rAKA akantu
dynamics.py
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#!/usr/bin/env python3
import
numpy
as
np
import
akantu
as
aka
# -----------------------------------------------------------------------------
class
MyFixedValue
(
aka
.
FixedValue
):
def
__init__
(
self
,
value
,
axis
):
super
()
.
__init__
(
value
,
axis
)
self
.
value
=
value
self
.
axis
=
int
(
axis
)
def
__call__
(
self
,
node
,
flags
,
disp
,
coord
):
# sets the displacement to the desired value in the desired axis
disp
[
self
.
axis
]
=
self
.
value
# sets the blocked dofs vector to true in the desired axis
flags
[
self
.
axis
]
=
True
# -----------------------------------------------------------------------------
def
main
():
spatial_dimension
=
2
mesh_file
=
'bar.msh'
max_steps
=
250
time_step
=
1e-3
aka
.
parseInput
(
'material.dat'
)
# -------------------------------------------------------------------------
# Initialization
# -------------------------------------------------------------------------
mesh
=
aka
.
Mesh
(
spatial_dimension
)
mesh
.
read
(
mesh_file
)
model
=
aka
.
SolidMechanicsModel
(
mesh
)
model
.
initFull
(
_analysis_method
=
aka
.
_explicit_lumped_mass
)
# model.initFull(_analysis_method=aka._implicit_dynamic)
model
.
setBaseName
(
"waves"
)
model
.
addDumpFieldVector
(
"displacement"
)
model
.
addDumpFieldVector
(
"acceleration"
)
model
.
addDumpFieldVector
(
"velocity"
)
model
.
addDumpFieldVector
(
"internal_force"
)
model
.
addDumpFieldVector
(
"external_force"
)
model
.
addDumpField
(
"strain"
)
model
.
addDumpField
(
"stress"
)
model
.
addDumpField
(
"blocked_dofs"
)
# -------------------------------------------------------------------------
# boundary conditions
# -------------------------------------------------------------------------
model
.
applyBC
(
MyFixedValue
(
0
,
aka
.
_x
),
"XBlocked"
)
model
.
applyBC
(
MyFixedValue
(
0
,
aka
.
_y
),
"YBlocked"
)
# -------------------------------------------------------------------------
# initial conditions
# -------------------------------------------------------------------------
displacement
=
model
.
getDisplacement
()
nb_nodes
=
mesh
.
getNbNodes
()
position
=
mesh
.
getNodes
()
pulse_width
=
1
A
=
0.01
for
i
in
range
(
0
,
nb_nodes
):
# Sinus * Gaussian
x
=
position
[
i
,
0
]
-
5.
L
=
pulse_width
k
=
0.1
*
2
*
np
.
pi
*
3
/
L
displacement
[
i
,
0
]
=
A
*
\
np
.
sin
(
k
*
x
)
*
np
.
exp
(
-
(
k
*
x
)
*
(
k
*
x
)
/
(
L
*
L
))
displacement
[
i
,
1
]
=
0
# -------------------------------------------------------------------------
# timestep value computation
# -------------------------------------------------------------------------
time_factor
=
0.8
stable_time_step
=
model
.
getStableTimeStep
()
*
time_factor
print
(
"Stable Time Step = {0}"
.
format
(
stable_time_step
))
print
(
"Required Time Step = {0}"
.
format
(
time_step
))
time_step
=
stable_time_step
*
time_factor
model
.
setTimeStep
(
time_step
)
# -------------------------------------------------------------------------
# loop for evolution of motion dynamics
# -------------------------------------------------------------------------
print
(
"step,step * time_step,epot,ekin,epot + ekin"
)
for
step
in
range
(
0
,
max_steps
+
1
):
model
.
solveStep
()
if
step
%
10
==
0
:
model
.
dump
()
epot
=
model
.
getEnergy
(
'potential'
)
ekin
=
model
.
getEnergy
(
'kinetic'
)
# output energy calculation to screen
print
(
"{0},{1},{2},{3},{4}"
.
format
(
step
,
step
*
time_step
,
epot
,
ekin
,
(
epot
+
ekin
)))
return
# -----------------------------------------------------------------------------
if
__name__
==
"__main__"
:
main
()
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