Browsers supply a great deal of view-related functionality by listing the parts of a model in a tabular and/or tree-based
format, and providing controls inside the table that allow you to alter the display of model parts.
FE geometry is topology on top of mesh, meaning CAD and mesh exist as a single entity. The purpose of FE geometry
is to add vertices, edges, surfaces, and solids on FE models which have no CAD geometry.
Tools and workflows that are dedicated to rapidly creating new parts for specific use cases, or amending existing
parts. The current capabilities are focused on stiffening parts.
Open animation files, measure various distances and angles between entities, and use the Results Browser to view the model structure and find, display, and edit entities.
After a contour plot has been applied in the Contour panel, the Cache feature will become active and allow you to add
the currently active contour result to an internal cache.
The averaging options allow you to limit the averaging of results to only a group of elements that are considered to be
bound by same feature angle or face.
The fatigue manager allows you to write stress and strain results from a finite element analysis to an external file that
can be used to set up a fatigue analysis.
The fatigue configuration file is a user-defined external ASCII-file through which the data groups from results of static/modal/transient analysis of different solvers can be read.
Create and edit user-defined data type expressions, derived load cases, and systems. You can also plot a forming limit
diagram, generate streamlines, track entities during animation, and create and import/export sets of entities.
Query entities, create or edit free body diagrams, construct multiple curves and plots from a single result file, and
create and plot stress linearization.
HyperView supports 1D (or line) element results. Each 1D element
has two corners and a base (centroid) location for elemental results. HyperView supports contour colors for the base (centroid) location
only. This means an element will have only one color when the Use corner data option in the
Contour panel is not selected. When the Use corner data option is selected, the element
contour color becomes gray. However, you can still use the Query panel to query corner
results.
For HyperMesh
Users
If you are familiar with HyperMesh, you know that it
contains a contour panel as well. The Contour panel in HyperView processes result values differently and more accurately than the HyperMesh Contour panel. In the HyperMesh
contour panel, the elemental results are averaged to nodes and the averaged values are used
for the colors and legend display. By doing this, the Max/Min result values are averaged, thus
lowering the Max values in the legend. This may cause some confusion for HyperMesh users when they use the Contour panel in HyperView. To match a HyperMesh
contour plot in HyperView, verify that the Use corner data
option is deactivated, select the Simple averaging method without variation, and use Analysis
System for Resolved in. This is done because in HyperMesh, the
results are always treated as scalars, so transformation to other systems cannot be applied.
When the Analysis System option is used, the original values are extracted directly from the
result file for averaging. Considering the extended support of transformation and averaging
methods in HyperView, we recommend using HyperView for an accurate post-processing of results.