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custom_material.py
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Created
Tue, Nov 5, 15:37
Size
5 KB
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text/x-python
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Thu, Nov 7, 15:37 (2 d)
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blob
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22140682
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rAKA akantu
custom_material.py
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#!/usr/bin/env python3
# pylint: disable=missing-module-docstring
# pylint: disable=missing-function-docstring
import
numpy
as
np
import
akantu
as
aka
spatial_dimension
=
2
# ------------------------------------------------------------------------------
class
LinearCohesive
(
aka
.
MaterialCohesive
):
"""Material Cohesive Linear."""
def
__init__
(
self
,
model
,
_id
):
super
()
.
__init__
(
model
,
_id
)
super
()
.
registerParamReal
(
"G_c"
,
aka
.
_pat_readable
|
aka
.
_pat_parsable
,
"Fracture energy"
)
super
()
.
registerParamReal
(
"beta"
,
aka
.
_pat_readable
|
aka
.
_pat_parsable
,
"beta"
)
self
.
registerInternalReal
(
"delta_max"
,
1
)
self
.
beta
=
0
self
.
sigma_c
=
0
self
.
delta_c
=
0
def
initMaterial
(
self
):
super
()
.
initMaterial
()
self
.
sigma_c
=
self
.
getReal
(
"sigma_c"
)
self
.
G_c
=
self
.
getReal
(
"G_c"
)
self
.
beta
=
self
.
getReal
(
"beta"
)
self
.
delta_c
=
2
*
self
.
G_c
/
self
.
sigma_c
def
checkInsertion
(
self
,
check_only
):
model
=
self
.
getModel
()
facets
=
self
.
getFacetFilter
()
inserter
=
model
.
getElementInserter
()
for
type_facet
in
facets
.
elementTypes
(
dim
=
(
spatial_dimension
-
1
)):
facet_filter
=
facets
(
type_facet
)
nb_facet
=
facet_filter
.
shape
[
0
]
if
nb_facet
==
0
:
continue
fe_engine
=
model
.
getFEEngine
(
"FacetsFEEngine"
)
facets_check
=
inserter
.
getCheckFacets
(
type_facet
)
insertion
=
inserter
.
getInsertionFacets
(
type_facet
)
nb_quad_facet
=
fe_engine
.
getNbIntegrationPoints
(
type_facet
)
normals
=
fe_engine
.
getNormalsOnIntegrationPoints
(
type_facet
)
facets_stresses
=
model
.
getStressOnFacets
(
type_facet
)
.
reshape
(
normals
.
shape
[
0
]
//
nb_quad_facet
,
nb_quad_facet
,
2
,
spatial_dimension
,
spatial_dimension
,
)
tangents
=
model
.
getTangents
(
type_facet
)
for
facet
,
facet_stresses
in
zip
(
facet_filter
,
facets_stresses
):
if
not
facets_check
[
facet
]:
continue
ref_stress
=
0
for
q
,
quad_stresses
in
enumerate
(
facet_stresses
):
current_quad
=
facet
*
nb_quad_facet
+
q
normal
=
normals
[
current_quad
,
:]
.
ravel
()
tangent
=
tangents
[
current_quad
,
:]
.
ravel
()
stress_1
=
quad_stresses
.
T
[
0
]
stress_2
=
quad_stresses
.
T
[
1
]
avg_stress
=
stress_1
+
stress_2
/
2.0
traction
=
avg_stress
.
dot
(
normal
)
n
=
traction
.
dot
(
normal
)
n
=
max
(
0
,
n
)
t
=
traction
.
dot
(
tangent
)
ref_stress
=
max
(
ref_stress
,
np
.
sqrt
(
n
*
n
+
t
*
t
/
(
self
.
beta
**
2
))
)
if
ref_stress
>
self
.
sigma_c
:
insertion
[
facet
]
=
True
# constitutive law
def
computeTraction
(
self
,
normals
,
el_type
,
ghost_type
):
openings
=
self
.
getOpening
(
el_type
,
ghost_type
)
tractions
=
self
.
getTraction
(
el_type
,
ghost_type
)
delta_max
=
self
.
getInternalReal
(
"delta_max"
)(
el_type
)
for
el
in
range
(
normals
.
shape
[
0
]):
normal
=
normals
[
el
]
.
ravel
()
opening
=
openings
[
el
]
.
ravel
()
delta_n
=
opening
.
dot
(
normal
)
*
normal
delta_s
=
opening
-
delta_n
delta
=
(
self
.
beta
*
np
.
linalg
.
norm
(
delta_s
)
**
2
+
np
.
linalg
.
norm
(
delta_n
)
**
2
)
delta_max
[
el
]
=
max
(
delta_max
[
el
],
delta
)
tractions
[
el
,
:]
=
(
(
delta
*
delta_s
+
delta_n
)
*
self
.
sigma_c
/
delta
*
(
1
-
delta
/
self
.
delta_c
)
)
# register material to the MaterialFactory
def
allocator
(
_dim
,
unused
,
model
,
_id
):
return
LinearCohesive
(
model
,
_id
)
mat_factory
=
aka
.
MaterialFactory
.
getInstance
()
mat_factory
.
registerAllocator
(
"local_cohesive"
,
allocator
)
# -------------------------------------------------------------------------
# Initialization
# -------------------------------------------------------------------------
aka
.
parseInput
(
"local_material.dat"
)
mesh
=
aka
.
Mesh
(
spatial_dimension
)
mesh
.
read
(
"plate.msh"
)
model
=
aka
.
SolidMechanicsModelCohesive
(
mesh
)
model
.
initFull
(
_analysis_method
=
aka
.
_static
,
_is_extrinsic
=
True
)
model
.
initNewSolver
(
aka
.
_explicit_lumped_mass
)
model
.
setBaseName
(
"plate"
)
model
.
addDumpFieldVector
(
"displacement"
)
model
.
addDumpFieldVector
(
"external_force"
)
model
.
addDumpField
(
"strain"
)
model
.
addDumpField
(
"stress"
)
model
.
addDumpField
(
"blocked_dofs"
)
model
.
setBaseNameToDumper
(
"cohesive elements"
,
"cohesive"
)
model
.
addDumpFieldVectorToDumper
(
"cohesive elements"
,
"displacement"
)
model
.
addDumpFieldToDumper
(
"cohesive elements"
,
"damage"
)
model
.
addDumpFieldVectorToDumper
(
"cohesive elements"
,
"tractions"
)
model
.
addDumpFieldVectorToDumper
(
"cohesive elements"
,
"opening"
)
# -------------------------------------------------------------------------
# Boundary conditions
# -------------------------------------------------------------------------
model
.
applyBC
(
aka
.
FixedValue
(
0.0
,
aka
.
_x
),
"XBlocked"
)
model
.
applyBC
(
aka
.
FixedValue
(
0.0
,
aka
.
_y
),
"YBlocked"
)
trac
=
np
.
zeros
(
spatial_dimension
)
traction
=
0.095
trac
[
int
(
aka
.
_y
)]
=
traction
model
.
getExternalForce
()[:]
=
0
model
.
applyBC
(
aka
.
FromTraction
(
trac
),
"Traction"
)
print
(
"Solve for traction "
,
traction
)
solver
=
model
.
getNonLinearSolver
(
"static"
)
solver
.
set
(
"max_iterations"
,
100
)
solver
.
set
(
"threshold"
,
1e-10
)
solver
.
set
(
"convergence_type"
,
aka
.
SolveConvergenceCriteria
.
residual
)
model
.
solveStep
(
"static"
)
model
.
dump
()
model
.
dump
(
"cohesive elements"
)
model
.
setTimeStep
(
model
.
getStableTimeStep
()
*
0.1
)
maxsteps
=
100
for
i
in
range
(
0
,
maxsteps
):
print
(
"{0}/{1}"
.
format
(
i
,
maxsteps
))
model
.
checkCohesiveStress
()
model
.
solveStep
(
"explicit_lumped"
)
if
i
%
10
==
0
:
model
.
dump
()
model
.
dump
(
"cohesive elements"
)
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