Im Input File musst Du nix machen. Geht alles im Viewer. KS anlegen. Ergebnisse transformieren --> Contourplot
40.5.8 Transforming results into a new coordinate system
By default, Abaqus/CAE displays element-based field output results in the coordinate systems defined during preprocessing and node-based field output results in the global coordinate system. If you defined nodal transformations during preprocessing, you can choose to apply these transformations to node-based results. Alternatively, you can choose to transform both element- and node-based results into a user-specified coordinate system.
For vector quantities such as displacement, velocity, and acceleration, which are derived from nodal coordinates, Abaqus/CAE transforms the results to the requested coordinate system using the final quantity (saved vector) instead of the original coordinates. For example, the cylindrical displacement component is computed by projecting the displacement vector along the current r- or - direction. By comparison, taking the differential between the transformed nodal coordinates would yield a different result.
When you transform results into a local coordinate system, Abaqus/CAE rotates the global rectangular coordinate system as needed to align with the local system at the point of interest. The transformed results are reported in the rotated global rectangular coordinates.
For transformations to user-specified coordinate systems, Abaqus/CAE includes the effects of the current deformation by default when deformation effects are available. You can exclude these effects if you want transformation calculations to consider only the undeformed state. Deformation effects are not scaled; Abaqus/CAE performs these calculations using a deformation scale factor of 1.0. Including deformation effects in a transformation can change the orientation of node-based coordinate systems, the projection of coordinate systems on shell and membrane elements, and the orientation of location-dependent cylindrical and location-dependent spherical coordinate systems.
When you select a user-specified coordinate system for a transformation, you can also adjust the display of primary variable or deformed variable results to account for the rigid body transformation of the coordinate system. Displaying deformations that account for rigid body transformations enables you to visualize the relative displacements of the model with respect to a moving, user-defined coordinate system. For more information about selecting results variables, see “Selecting the primary field output variable,” Section 40.4.3, and “Selecting the deformed field output variable,” Section 40.4.4.
To transform results to a new coordinate system:
Locate the Transform Type options.
From the main menu bar, select ResultOptions; then click the Transformation tab in the dialog box that appears. The Transform Type options appear.
Select the transform type to use for your results.
Select Default to use the default coordinate systems defined for your model. Node-based results are displayed in the global system. Element-based results are displayed in the local orientations defined for the model; if none have been defined, the global system is used. A projection of the global system or local orientation is used for two-dimensional continuum elements, shell elements, and membrane elements.
Select Nodal to consider local directions that have been defined at the nodes. Element-based results are displayed in the default coordinate system (as described above). Nodal transformations defined for the model are applied to node-based results; if none have been defined, the global system is used...........
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