Analyzing Circular Models
In many cases, you can take advantage of symmetry conditions to analyze
a portion of a circular model instead of the whole model. Here are some
guidelines:
When determining symmetry, consider geometry,
materials, restraints, and loads.
For frequency and buckling studies, analyze the
full model. If you analyze a part of the model using symmetry, you get
symmetrical modes only.
For simple models, analyze the full model. The
results should be symmetrical.
If the model is fully axi-symmetric and the loads
are such that the cut sections cannot deform normal to their planes, you
can analyze a wedge. Theoretically, you can use any angle for the wedge.
Practically, you should not use a very small angle that can result in
a bad mesh especially when there is no hole at the center of the model.
Note that you cannot use this option if tangential loads exist since the
cut planes can deform normal to their planes. Use cyclic symmetry in such
cases.
If the model has a circular pattern and the loads
are such that the cut sections cannot deform normal to their planes, you
can analyze a representative pattern and apply Symmetry
constraints on the cut section. If the loads are such that the cut sections
can deform normal to their planes, use Circular
Symmetry.
Circular symmetry is more general as it can
solve problems where the cut sections can deform in the tangential direction.
For example, you can analyze any wedge of the
disc shown below . If all forces are radial, you can use the Symmetry
condition. If tangential loads exist, the cut sections can deform out
of their planes and you must use the Circular
Symmetry or analyze the full model.
For the fan shown below, you can analyze one blade (one ninth of the
model). Since loads on the blades are usually tangential, using Circular Symmetry is recommended.
Although
any one ninth of the model is a valid pattern, it is recommended to use
a pattern that does not cut through the blades.