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Display the surface traction load editor using one of the following
methods:
-
Click the arrow to the right of the Distribution
field, and select the option of your choice from the list that appears:
-
Select Uniform to define a load that is
uniform over the surface.
-
Select User-defined to define the magnitude
of the load in user subroutine
UTRACLOAD (for
Abaqus/Standard).
See the following sections for more information:
-
Select an analytical field to define a spatially varying load.
Only analytical fields that are valid for this load type are displayed in the
selection list. Alternatively, you can click
to create a new analytical field. (See
The Analytical Field toolset
for more information.)
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Click the arrow to the right of the Traction
field, and select the option of your choice from the list that appears:
-
Specify the load direction.
-
Click
next to Vector or Vector
before projection to specify the coordinates of the direction
vector.
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By default, the traction components are specified with respect to
the global axes. To refer to a local coordinate system for the direction
components of the traction:
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If you selected CSYS: Picked, you can define
an additional rotation about one of the axes. Click the arrow to the right of
the Additional rotation about axis field, select the axis
about which the other two axes will be rotated, and enter a value for the
additional rotation angle.
-
In the Magnitude text field, enter the surface
traction magnitude (units FL−2).
-
If desired, click the arrow to the right of the
Amplitude 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.)
-
If desired, click the arrow to the right of the Traction is
defined per unit field, and select deformed
area to define the surface traction with respect to the current
(deformed) area or undeformed area to define the surface
traction with respect to the reference (original) area.
-
If you selected the General traction type, you
can toggle off Follow rotation to define a non-follower
load in a geometrically nonlinear analysis (i.e., the load always acts in a
fixed global direction rather than rotating with the surface).
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Click OK to save your data and to exit the
editor.
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