View new features for HyperView 2021.2.
Learn the basics and discover the workspace.
Discover HyperView functionality with interactive tutorials.
Explore the various display and visualization tools.
Create and import/export sets, create user defined coordinate systems, or use the symmetry visualization tool.
Explore the various result plotting tools.
Use the Contour tool to create contour plots of a model and graphically visualize the analysis results.
Use the Iso tool to display single iso values (iso surfaced for solids or iso line for shells) dependent on results data.
Use the Vector tool to set options for a vector plot.
Use the Tensor tool to view tensor plots of stress and strain directions and magnitudes for various solvers from elemental values.
The Edit Legend dialog allows you to change the legend properties.
You can edit the contour, vector, or tensor plot legend in the graphics area.
Results in some analysis types come as complex numbers.
A listing of results that are computed in HyperView.
Nodal averaging of elemental results at a node refers to the average of all the element corner results passing through that node.
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.
HyperView allows for plotting (contour, iso, vector, or tensor) across multiple overlaid models.
HyperView's animation functions allow you to view your model in motion. The three types of animation include transient, modal, and linear static.
Use the Deformed tool to specify parameters for deformation display.
The Loadcase tool allows you to create a derived load case from other load cases, or from a combination of other load cases and simulation steps.
Use the Tracking tool to track any entity during animation.
Use the Query tool to view and export properties and other information for nodes, elements, components, and systems contained in the active model.
Use the Systems Review dialog to review the orientations of various element systems (1D, 2D, or 3D), as well as material and ply systems.
The Free Body Diagram (FBD) tool facilitates the extraction and post-processing of Grid Point Force (GPFORCE) results and can be used create and edit Free Body Diagrams (FBD).
Starting in version 2021, the Stress Linearization tool has been renamed as Extract-Linearize and will support both the Extract Data and Stress Linearization methods.
A result manipulation library that enables user-defined data types to be added to a result, and transitions complex data manipulation tasks from HyperView to a reusable, modifiable set of libraries that focus solely on result processing tasks.
HyperView offers CFD post-processing capabilities for a large class of industrial applications.
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.
Annotate model results using the Measures, Notes, Tracing, Image Planes, and Build Plots tools.
From the Tools menu, you can access various panels and dialogs.
From the Preferences menu, you can define file export settings and access the Options dialog.
The Aerospace menu provides you with access to various aerospace tools.
The NVH menu provides you with access to various NVH utilities.
The Vehicle Safety Tools (VST) is a collection of over 200 macros, Templex functions, and external functions for use by a vehicle safety engineer.
A new workflow emphasizing upfront data loading for standard crash post processing use cases.
Supported solvers in HyperView.
HyperView help for HyperWorks.
Explore the various result plotting tools.
Use the Tensor tool to view tensor plots of stress and strain directions and magnitudes for various solvers from elemental values.
Option | Description |
---|---|
By Magnitude | The tensor size is displayed relative to the value of the tensors.
Scale value allows you to increase or decrease the size according to a scaling value. |
Normalize | The tensor is stretched or reduced according to the element size so
that the largest component fits in the element. Note: This is set as the
default with a value of 1.
|
By | Setting this allows you to increase or decrease the scale factor,
which in turn affects the length of the arrows. Restriction: This option is only active when By magnitude is
chosen.
|
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