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FILM AMPLITUDE
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Set this parameter equal to the name of the AMPLITUDE option that gives the
variation of the film coefficient, h, with time.
If this parameter is omitted in an Abaqus/Standard analysis, the reference film coefficient is applied immediately at the beginning of
the step and kept constant over the step, independent of the value assigned to the
AMPLITUDE parameter on the STEP option. If this parameter
is omitted in an Abaqus/Explicit analysis, the reference film coefficient is applied immediately at the beginning of
the step.
The FILM AMPLITUDE parameter is
ignored if a film coefficient is defined to be a function of temperature and field
variables via the FILM PROPERTY option.
For nonuniform film coefficients, the film coefficient amplitude is defined in user
subroutine FILM in Abaqus/Standard or user subroutine VFILM in Abaqus/Explicit; and FILM AMPLITUDE references
are used only to modify the film coefficient passed into the user subroutine.
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OP
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Set
OP=MOD
(default) for existing FILMs to remain, with this
option modifying existing films or defining additional films.
Set
OP=NEW
if all existing FILMs applied to the model
should be removed.
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REGION TYPE
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This parameter applies only to Abaqus/Explicit analyses.
This parameter is relevant only for film conditions applied to the boundary of an
adaptive mesh domain. If a film condition is applied to a surface in the interior of
an adaptive mesh domain, the nodes on the surface will move with the material in all
directions (they will be nonadaptive). Abaqus/Explicit will create a boundary region automatically on the surface subjected to the defined
film load.
Set
REGION TYPE=LAGRANGIAN
(default) to apply the film condition to a Lagrangian boundary region. The edge of a
Lagrangian boundary region will follow the material while allowing adaptive meshing
along the edge and within the interior of the region.
Set
REGION TYPE=SLIDING
to apply the film condition to a sliding boundary region. The edge of a sliding
boundary region will slide over the material. Adaptive meshing will occur along the
edge and in the interior of the region. Mesh constraints are typically applied on the
edge of a sliding boundary region to fix it spatially.
Set
REGION TYPE=EULERIAN
to apply the film condition to an Eulerian boundary region. This option is used to
create a boundary region across which material can flow. Mesh constraints must be used
normal to an Eulerian boundary region to allow material to flow through the region. If
no mesh constraints are applied, an Eulerian boundary region will behave in the same
way as a sliding boundary region.
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SINK AMPLITUDE
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Set this parameter equal to the name of the AMPLITUDE option that gives the
variation of the sink temperature,
, with time.
If this parameter is omitted in an Abaqus/Standard analysis, the reference sink temperature is applied immediately at the beginning of
the step or linearly over the step, depending on the value assigned to the
AMPLITUDE parameter on the STEP option (Defining an Analysis). If this
parameter is omitted in an Abaqus/Explicit analysis, the reference sink temperature is applied immediately at the beginning of
the step.
For nonuniform film coefficients, the sink temperature amplitude is defined in user
subroutine FILM in Abaqus/Standard or user subroutine VFILM in Abaqus/Explicit; and SINK AMPLITUDE references
are used only to modify the sink temperature passed into the user subroutine.