-
Display the temperature field editor using one of the following
methods:
-
To create a new temperature field, follow the procedure outlined
in
Creating predefined fields
(Category: Other ;
Types for Selected Step:
Temperature ).
Note:
If you want to specify the temperature variation directly in
the temperature field editor, in user subroutine
UTEMP, or using an analytical field or discrete field, you must
select a region for the temperature field. If you want to specify any other
temperature distribution, you may click Done in the
prompt area to use a calculated temperature.
-
To edit an existing temperature field using menus or managers, see
Editing step-dependent objects.
-
If you are editing a temperature field in any general analysis step
other than the one in which the field was created, click the arrow to the right
of the Status field, and select the option of your choice
from the list that appears:
-
Select Propagated to indicate that the
temperature field is active in the current step with temperatures values held
constant from the previous step. No data can be specified; click
OK to exit the editor. If you change the status of the
current step from Modified to
Propagated and click OK, all
modifications to the current step are removed.
-
Select Modified to edit the field definition
for the current step. Continue with Step 3.
-
Select Reset to initial to reset the field
definition to the one that was prescribed in the initial step. No data can be
specified; click OK to reset the field and to exit the
editor.
-
If you are creating a new temperature field, click the arrow to the
right of the Distribution field, and select the option of
your choice from the list that appears.
Note:
If you are creating a temperature field in the initial step, only
the Direct specification, From results or output
database file, analytical field, and discrete field distribution
options are available.
-
Select Direct specification to specify the
temperature variation over the selected region in the temperature field editor.
-
Select From results or output database file
to read temperature values from the results or output database file of a
previous
Abaqus
analysis with thermal components.
-
Select User-defined to define temperature
values in user subroutine
UTEMP. This option is available only for
Abaqus/Standard
analyses. See the following sections for more information:
-
Select From results or output database file and
user-defined to read temperature values from the results or output
database file of a previous
Abaqus
analysis with thermal components and modify them in user subroutine
UTEMP. This option is available only for
Abaqus/Standard
analyses.
-
Select an analytical field, labeled with an (A), or a discrete
field, labeled with a (D), to define a spatially varying temperature. The
selection list contains all analytical fields and only discrete fields that are
valid for temperature fields.
Alternatively, you can click
to create a new analytical field. (See
The Analytical Field toolset
for more information.)
-
If you selected the Direct specification,
analytical field, or discrete field distribution option, perform the following
steps:
-
Click the arrow to the right of the Section
variation field, and select an option from the list that appears.
Only options that are valid for the selected region appear in the list. Beam
and shell gradient values are not affected by an analytical field or a discrete
field. You should select an option that is consistent with the temperature
variation method defined in the section definition associated with the region
selected for this field as follows:
-
Select Constant through region to define
a constant temperature over a section.
In the Magnitude text field, enter the
magnitude of the temperature across the section.
-
Select Gradient through shell section to
define a temperature variation through a shell section. The
Temperature variation method in the shell section editor
must specify Linear through thickness.
In the Reference magnitude text field,
enter the magnitude of the temperature at the reference surface. In the
Thickness gradient text field, enter the temperature
gradient through the section.
-
Select Gradient through beam section to
define a temperature variation through a beam section. (This method is not
available for axisymmetric models.) The Temperature
variation method in the beam section editor must specify
Linear by gradients.
In the Reference magnitude text field,
enter the magnitude of the temperature at the cross-section origin. In the
N1 gradient and N2 gradient text
fields, enter the temperature gradients through the section in the
- and
-directions
of the beam, respectively. For beams in a plane only the temperature magnitude
and the N2 gradient must be specified.
-
Select Defined at shell/beam temperature
points to define a piecewise linear temperature variation through a
shell or beam section. The Temperature variation method in
the shell section editor must specify Piecewise linear over
n values. The Temperature
variation method in the beam section editor must specify
Interpolated from temperature points.
Select the number of temperature points to be specified by
either typing an integer in the Temperature points text
field or using the arrows to the right of the text field to select a number,
and enter the magnitude of the temperature at each point in the
Section Data table. The number of values in the section
definition should be less than or equal to the number of temperature data
points given for this field. If the number of values is less, the last value
will be repeated to match the number of temperature data points.
-
If desired (for all steps other than the initial step), click the
arrow to the right of the Amplitude text field, and select
the amplitude of your choice from the list that appears. Alternatively, you can
click
to create a new amplitude. (See
The Amplitude toolset
for more information.) Beam and shell gradient values will be modified by the
amplitude definition.
-
Click OK to save your data and to exit the
editor.
-
If you selected the From results or output database
file distribution option, perform the following steps:
-
In the File name text field, enter the name
of the results or output database file from which temperature data are to be
read; or click
to display the Select Results or Output Database
File dialog box and select the file of your choice. (See
Using file selection dialog boxes
for more information.)
-
If you are creating a temperature field in the initial step:
-
In the Step text field, enter the step
number of the analysis whose results or output database file is being used as
input from which the field data should be read.
-
In the Increment text field, enter the
increment number of the analysis whose results or output database file is being
used as input from which the field data should be read.
-
Optionally, if you are creating a temperature field in an analysis
step other than the initial step:
-
In the Begin step text field, enter the
step number of the analysis whose results or output database file is being used
as input that begins the field data to be read. By default, the first step
available in the results or output database file will be used.
-
In the Begin increment text field, enter
the increment number of the analysis whose results or output database file is
being used as input that begins the field data to be read. By default, the
first increment available in the results or output database file will be used.
-
In the End step text field, enter the
step number of the analysis whose results or output database file is being used
as input that ends the field data to be read. By default, the Begin
step value will be used.
-
In the End increment text field, enter
the increment number of the analysis whose results or output database file is
being used as input that ends the field data to be read. By default, the last
increment available for the End step value in the results
or output database file will be used.
-
Choose the Mesh compatibility.
-
Select Compatible if the meshes in the
original analysis and the current analysis are the same or differ only in the
element order.
If the original and current meshes differ only in the element
order, you must indicate that midside node temperatures in second-order
elements are to be interpolated from corner node temperatures by toggling on
Interpolate midside nodes.
-
Select Incompatible if the meshes in the
original analysis and the current analysis are dissimilar. This option is valid
only if the temperature values are being read from an output database file.
-
If the original and current meshes are dissimilar, you can specify
a value for the Exterior tolerance.
-
Specify the absolute value by which nodes
of the current model may lie outside the region of the elements of the original
model. If this value is not specified or is 0.0, the
relative tolerance will apply.
-
Specify the relative fraction of the
average element size by which nodes of the current model may lie outside the
region of the elements of the original model.
If both tolerances are specified,
Abaqus
uses the tighter tolerance.
-
Click OK to save your data and to exit the
editor.
-
If you selected the User-defined distribution
option, perform the following steps:
-
Click OK to exit the editor.
-
Enter the
Job module,
and display the job editor for the analysis job of interest. (For more
information, see
Creating, editing, and manipulating jobs.)
-
In the job editor, click the General tab, and
specify the file containing the user subroutine that defines the temperature
field. For more information, see
Specifying general job settings.
Note:
You can specify only one user subroutine file in the job editor;
if your analysis involves more than one user subroutine, you must combine the
user subroutines into one file and then specify that file.
-
If you selected the From results or output database file and
user-defined distribution option, follow the procedures outlined in
Steps 5 and 6 for the From results or output database file
and User-defined distribution options.
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